ETERPAN® Technical Manual
10 Good Reasons to Use ETERPANfi Boards
1. Resistant to fire
2. Resistant to water
3. Space saving structures and constructions
4. Lightweight
5. Good thermal and sound insulation properties
6. Time saving installation
7. Easy to decorate
8. Provides space to accommodate cables, wiring or ductwork
9. Asbestos free and non hazardous
10. Excellent durability
The information in this manual is correct at time of printing.However, due to our committed program of continuousproduct and system development, Eternit Asia Panels reservethe right to amend or alter the information contained therein.Please contact Eternit Asia Panels to ensure you have themost current version.
No part of the contents of this manual may be reproduced ortransmitted in any form or by any means without the writtenpermission of Promat International (Asia Pacific) Ltd. Pleasedo not make any unauthorised copies. If further copies of thismanual are required, please forward a request in writing toEternit Asia Panels, attention to Business DevelopmentManager.
ETERPANfi is manufactured under a quality managementsystem certified in accordance with ISO 9000: 2000.
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1.1 Product Composition & Production 4
1.2 Field of Applications 4
1 Introduction
2.1 Available Format & Finishing 52.1.1 ETERPANfi -MD Format & Finishing 52.1.2 ETERPANfi -LD Format & Finishing 5
2.2 Packing Specifications 52.2.1 ETERPANfi -MD Packing Specifications 52.2.2 ETERPANfi -LD Packing Specifications 5
2.3 Product Characteristics 62.3.1 Physical Properties 62.3.2 Mechanical Properties 62.3.3 Allowable Radius of Curvature 6
2.4 Test Evidences 72.4.1 Tests performed on ETERPANfi -MD in accordance with various standards 72.4.2 Tests performed on ETERPANfi -LD in accordance with various standards 7
2 Technical Information & Specifications
CONTENT PAGE
3.1 Loading & Unloading 8
3.2 Transport on Site 8
3.3 Storage 8
3.4 Handling 8
3.5 Cutting 9-113.5.1 Industrial Machines 93.5.2 Semi-industrial Machines 103.5.3 On-site Machines 10-11
3.6 Holes Forming 12
3.7 Fixing of ETERPANfi Boards 13
3.8 Flush Jointing 14
3 Working with ETERPANfi
4.1 Advantages & Durability of ETERPANfi -MD in External Wall 15
4.2 Sealing of ETERPANfi -MD 16
4.3 General Information Considerations 16
4.4 Joints & Junctions Construction 17
4.5 Joint Layout 17
4.6 Non-movement Joints 17
4.7 Movement Control Joints 17-194.7.1 Vertical Movement Control Joints 17-184.7.2 Horizontal Movement Control Joints 19
Please turn to next page.
4 Design & Installation of External Wall
CONTENT PAGE
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4.8 Corner Treatments 204.8.1 External Corner 204.8.2 Internal Corner 20
4.9 Junctions 21
4.10 Bottom Treatment for ETERPANfi -MD 21
4.11 Parapets & Balcony Walls 22-24
4.12 Windows & Doors 25-27
4.13 Other Detailing 28-29
4 Design & Installation of External Wall
5.1 Joint Stopping 30
5.2 Texture Coating System 30
5 Joint Stopping & Texture Coating
6.1 ETERPANfi -MD Backing for Solid Plastering 31-38
6.2 ETERPANfi -MD for Wall Cladding 39-586.2.1 6mm ETERPANfi -MD Wall System 31-436.2.2 7.5mm ETERPANfi -MD Wall System 44-516.2.3 9mm ETERPANfi -MD Wall System 526.2.4 ETERPANfi -MD Rainscreen Cladding System 53-58
6.3 Soffit & Eaves 59-60
6 Systems for External Applications
7.1 Advantages of ETERPANfi Partition Systems 61
7.2 Specifications of ETERPANfi Partition Systems 62-637.2.1 Specifications of ETERPANfi Boards & Profiles 627.2.2 Fixing Elements 63
7.3 Partition Construction 64-707.3.1 Considerations & General Assembly 64-667.3.2 General Details 67-687.3.3 Joint Finishing 697.3.4 Other Finishing Details 70
7.4 Special Applications 71-727.4.1 Wall Lining 717.4.2 Sound Insulating Partition 717.4.3 Impact Resistant Wall 717.4.4 Demountable Partition 727.4.5 Material Consumption 72
7 Partitions
CONTENT PAGE
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8.1 Advantages of ETERPANfi Ceiling Systems 73
8.2 Specifcations of ETERPANfi Ceiling Systems 74-758.2.1 Sheet Size 748.2.2 Profiles & Accessories for ETERPANfi -MD Ceiling Systems 748.2.3 Fixing Elements 758.2.4 Joint Finishing Product 75
8.3 Construction of Ceiling 75-778.3.1 Concealed Ceiling 75-768.3.2 Self-supporting Ceiling 778.3.3 Tee-grid Ceiling 77
8.4 Opening in Ceilings 78-79
8.5 Joint Finishing 808.5.1 Finishing of Panel Edges 808.5.2 Wall-Ceiling Junction 808.5.3 Expansion Joint of Ceiling 80
8.6 Decoration of Ceiling 818.6.1 Paint 818.6.2 Wall Paper, Textiles, Laminates 81
8.7 Material Consumption 818.7.1 Material Consumption of Tee-grid Ceiling 818.7.2 Material Consumption of Concealed Ceiling 818.7.3 Material Consumption of Self-supporting Ceiling 81
8 Ceilings
9.1 General Information 829.1.1 Requirements of 20mm ETERPANfi -MD Flooring 829.1.2 Residential Floor Loadings / Required Floor Joist Spacing (1.5kPa, 1.8kN) 829.1.3 Residential Floor Loadings / Required Floor Joist Spacing (2.0kPa, 1.8kN) 829.1.4 Office Floor Loadings / Required Floor Joist Spacing (2.5kPa, 2.7kN) 82
9.2 Flooring Details 83
9 Flooring
10.1 Decoration of Tiled Wall 84-85
10.2 Bath Tub Vanity Panels 86
10.3 Kitchen/Bathroom Unit Top 86
10 Other Applications
ETERPANfi -MD Material Safety Data Sheet 88
ETERPANfi -LD Material Safety Data Sheet 89
Material Safety Data Sheet MSDS
INTRODUCTION ETERPANfi TECHNICAL MANUAL EMD/LD01
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ETERPANfi board is manufactured from a homogeneous mixtureof cement, organic cellulose fibres and selected mineral fillers.Cement and quartz are the principal elements of the mixture.These react during the autoclaving process, and build the strengthof product.
Fibres are added to enhance the strength of ETERPANfi board bymeans of the interaction of fibres, cement and quartz matrix.The mineral fillers provide intrinsic strength for the board and areimportant for product characteristics.
This asbestos-free board isautoclaved to form the dimensionallystable finished product, with theETERPANfi trade mark and
production information printed on theback surface.
Note should be taken that there aretwo types of board. These areETERPAN-MD and ETERPAN-LD. Theacronym MD stands for mediumdensity product and LD stands forlow density product. Each has itsarea of application which is detailedin the following sections.
ETERPANfi board is a fibre cement flat sheet which is known for its strength, versatility and durability. The product is produced by Eternitfactories in Asia.
1.1 Product Composition & Production
1.2 Field of Applications
The versatility of ETERPANfi board is boundless. It has a widerange of applications and is usually classified as being amultipurpose construction board.
The use of ETERPANfi board covers both external and internalapplications, such as the following:
Thermal insulation constructions;
External or internal wall linings;
Sound insulation/absorptionconstructions;
Wet area constructions;
Table tops;
Composite panels;
Demountable partition systems;
Ductwork and E&M enclosures;
Steelwork cladding panels;
Soffit and eaves;
Ceiling board;
Fencing panels
Sign boards, etc.
IMPORTANT NOTE:ETERPANfi -LD is recommended for interior applications only, such as partitioning, ceiling etc. Use ETERPANfi -MD for external applications.
EMD/LD01 ETERPANfi TECHNICAL MANUAL TECHNICAL INFORMATION & SPECIFICATIONS
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Item ETERPANfi -MD ETERPANfi -LD
Thickness (mm) 4.5 / 6 / 7.5 / 9 / 12 / 15 / 20 6 / 9 / 12
Size (mm x mm) 1220 x 2440 and 1200 x 2400 1220 x 2440
Edge treatment Square, bevelled, recessed, chamfered(subject to thickness requirements)
2.1.1 ETERPANfi -MD Format & Finishing
Three types of board finishing are available in accordance withcustomer requirements, these are UNFINISHED, FINISHED andTOP SANDED.
UNFINISHED board refers to a board which is cut in the wet onthe production line and dried without further trimming. There maybe some deviation in the squareness and straightness of the boardedges due to movement upon autoclaving and drying.
FINISHED boards are those with the edges re-cut after drying toensure squareness and straightness of the edges, but subjectedto tolerances as tabulated below. These boards can be suppliedwith bevelled, chamfered or recessed edges.
TOP SANDED are as per finished boards, including edgetreatments, but with the top face of the boards being sanded toprovide a slightly better surface finish.
The tolerances of the board in terms of length, width andthickness are as follows:
Item Unfinished Finished / Top sanded
Length, L –5mm –2mm
Width, W –5mm –2mm
Thickness, d: Top sanded onlyd < 9mm –0.5mm –0.4mmd > 9mm –0.8mm –0.4mm
Squareness –3mm/m –2mm/m
2.1.2 ETERPANfi -LD Format & Finishing
Low density ETERPANfi board is available only in standard smoothfinishing. Similarly this board is subjected to tolerances as detailedbelow and could be supplied with bevelled or recessed edges.
All measurements stated are standard size and thickness. Specialboard size or thickness are available upon request. Certainconditions may apply. Please consult Eternit Asia Panels fordetails.
The tolerances of the board in terms of length, width andthickness are as below:
Item Standard
Length, L –5mm
Width, W –5mm
Thickness, d –0.5mm
Squareness –3mm/m
2.1 Available Format & Finishing
Please note that the information below indicates the average production values and should be used as reference only. If a specific value isimportant to an application, please consult Eternit Asia Panels for precise figures and values.
ETERPANfi board is packed on flat pallets for delivery locally oroverseas. The packing specifications are as detailed below.
2.2.1 ETERPANfi -MD Packing Specifications
Thickness No. of No. of sheets / 20 container(mm) sheet/pallet Pieces m2
4.5 120 960 2858
6.0 90 720 2143
7.5 72 576 1715
9.0 61 488 1453
12.0 46 368 1095
15.0 37 296 881
20.0 27 216 643
2.2.2 ETERPANfi -LD Packing Specifications
No. of sheets / No. of sheets /Thickness No. of 20 container 40 container
(mm) sheet/pallet Pieces m2 Pieces m2
6 90 720 2143 1170 3483
9 61 488 1453 793 2361
12 46 368 1095 598 1780
There will be 8 pallets in a 20 container, being 6 horizontal palletsand 2 vertical pallets, with 13 pallets in a 40 container, being 12horizontal pallets and 1 vertical pallet. Note that a 40 container isnot recommended for ETERPANfi -MD boards due to the weightlimitations of the containers.
2.2 Packing Specifications
TECHNICAL INFORMATION & SPECIFICATIONS ETERPANfi TECHNICAL MANUAL EMD/LD01
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It should be noted that the values stated in the following tables areaverage values of the product obtained under normal conditions,and may subject to change without prior notice. Please consultEternit Asia Panels for more specific details.
2.3.1 Physical Properties
Description ETERPANfi -MD ETERPANfi -LD
Density (oven dry) Nominal 1300kg/m3 Nominal 950kg/m3
Combustibility (in accordance Non-combustible Non-combustibleto BS 476: Part 4)
Surface spread of flame Class 1 Class 1(in accordance to BS 476: Pt 7)
Building regulations classification Class O Class O
Value of pH 11 11
Moisture content (at EMC) 10% by weight 10% by weight
Moisture movements:- Normal to oven dry 1.30 mm/m 1.00 mm/m- Normal to saturated 0.60 mm/m 0.45 mm/m
Water absorption capacity 30% 56%(by weight)
Thermal expansion 6 x 10-6 m/m•K 5 x 10-6 m/m•K
Thermal conductivity (20-300 C) 0.35 W/m•K 0.28 W/m•K
Thermal shrinkage (4hr/500 C):- Length / width 0.56% 0.39%- Thickness 0.78% 0.91%- Weight loss 10.50% 9.03%
Resistance to continuous freezing -30OC -30OC
Resistance to continuous heating 150OC 150OC
2.3.2 Mechanical Properties
Description ETERPANfi -MD ETERPANfi -LD
Bending strength (oven dry):- Lengthwise 12 N/mm2 8.5 N/mm2
- Widthwise 9 N/mm2 5.5 N/mm2
Bending Modulus (oven dry):- Lengthwise 9500 N/mm2 6000 N/mm2
- Widthwise 7500 N/mm2 5000 N/mm2
Delamination strength (air dry) 1 N/mm2 0.7 N/mm2
Screw retention strength* 980 N Not(self-tapping screws 5 x 32mm) (average) applicable
* For reference only; as the retention strength may vary depending on typesof screw used.
Generally, ETERPANfi board can be used at curved sections.However, there is a limitation on the bending curvatures.
All curved sections should be supported with appropriate elements.The table on the right has been prepared for easy reference.
ETERPANfi board can be installed to form a convex or concavecurve on site. Generally it will form to the curve more readily. Thecurve is along the length of the board, not its width.
Begin fixing the sheet at one end and continue progressivelytowards the other end, fixing the sheets completely onto everyframing member, gradually bowing the sheets. Do not start fixingfrom the middle of the sheet. See FIGURE 1.
FIGURE 1 Installation of curved section for ETERPANfi boards
The following points should be noted if curve sections are to beconstructed.
a) Ensure the structure is designed and fastened to asubstrate which can withstand the forces generated whenfixing ETERPANfi board to a curve.
b) Ensure that timber or steel framings are properly set outto form the curve.
c) Distances of framing are to be installed at maximum400mm centres around the curve.
d) Ensure the fixings at the ends and in the middle of thesheet are able to accommodate the curving stresses.
e). Ensure that the curvature is within the radius limitation ofETERPANfi board, as detailed below.
2.3.3 Allowable Radius of Curvature
ETERPANfi -MD: As a general rule of thumb, it can be bowed to adegree where the minimum radius of curvature is 720 times itsthickness (t) along the board’s length and 744 times across the length.
Thickness Minimum bending radius, R (m)
(mm) Lengthways Widthways
4.5 3.24 3.35
6.0 4.32 4.46
7.5 5.40 5.58
9.0 6.48 6.70
12.0 8.64 8.93
ETERPANfi -LD: As a general rule of thumb, it can be bowed to adegree where the minimum radius of curvature is 804 times itsthickness (t) along the board’s length and 912 times across the length.
Thickness Minimum bending radius, R (m)
(mm) Lengthways Widthways
6.0 4.82 5.47
9.0 7.24 8.21
10.0 8.04 9.12
12.0 9.65 10.94
2.3 Product Characteristics
EMD/LD01 ETERPANfi TECHNICAL MANUAL TECHNICAL INFORMATION & SPECIFICATIONS
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Under the continuous product development scheme of Eternit Asia Panels, ETERPANfi board has been widely tested under different standardsfor consistency of its physical properties. Highlighted below are some of the many tests carried out in testing laboratories throughout the world.This list is meant for reference only. Should further details be required, please consult Eternit Asia Panels Technical Department.
2.4.1 Tests performed on ETERPANfi -MD in accordance with various standards
Reference No. Description Results
AS 1530.3: 1989 Ignitability, spread of flame, heat evolved, smoke developed. Each obtaining index 0.
AS 3991: 1992 Dimensions/ Modulus of rupture/ Density/ Water-tightness/ ETERPANfi -MD complies with category 2 ofResistance to hot water soaking, to heat or rain, to freeze or thaw Type A and B of AS 2908.2-1992.
ASTM C447: 1976 Thermal shrinkage (4 hours at 300OC) Length/Width: 0.28%; Thickness: 0.28%.
ASTM C518: 1976 Thermal conductivity 0.258 W/m•K at 52OC.
BS 874: 1973 Thermal conductivity 0.265 W/m•K at 300OC.
ASTM C1185: 1995 For Density/ Moisture content/ Water absorption/ Bending strength or modulus/ Hydric movement/ Thermal movement/ Porosity,please consult Eternit Asia Panels Technical Department.
ASTM D256: 1981 Shock resistance 2.04 kJ/m2 (saturated).
ASTM D1037: 1978 For Compressive strength or modulus/ Delamination strength/ Tensile strength/ Bending strength/ Impact strength,please consult Eternit Asia Panels Technical Department.
ASTM G26: 1990 Weather O meter No visible damage.
Part 4: 1970 Non-combustibility Non-combustible.Part 6: 1989 Fire propagation for products Index, I = 0.3; sub-index, i = 0.1.
BS 476 Part 7: 1971 Surface spread of flame Class 1 material.
Part 11: 1982 Heat emissionTemperature rise average 73OC
on specimen and 5OC within furnace.
BS 4624: 1981 Watertightness (24 hours at 250mm water head) No water droplets were observed.
BS 5669 Part 1: 1989: Clause 21 Impact strength 29.5mm/mm (mean) at average drop height ofapproximately 270mm.
CNS 6532 Combustibility classification Grade 1 (non-combustible).
GB 6566: 1986 Clause 2: Asbestos emission Comply with requirements.
ISO 1182: 1990 Non-combustibility Non-combustible.
ISO 8335: 1987 For Density/ Moisture content/ Swelling in water/ Modulus of elasticity/ Bending strength/ Screw-holding power,please consult Eternit Asia Panels Technical Department.
NIOSH 9002 Asbestos detection No asbestos fibre was found.
2.4.2 Tests performed on ETERPANfi -LD in accordance with various standards
Reference No. Description Results
ASTM C447: 1976 Thermal Shrinkage (4 hours at 300OC) Length/Width: 0.26%; Thickness: 0.23%.
ASTM C518: 1976 Thermal conductivity 0.213 W/m•K at 52OC.
BS 874: 1973 Thermal conductivity 0.215 W/m•K at 300OC.
ASTM C1185: 1995 For Density/ Moisture content/ Water absorption/ Bending strength or modulus/ Hydric movement/ Thermal movement/ Porosity,please consult Eternit Asia Panels Technical Department.
ASTM D256: 1981 Shock resistance 2.37 kJ/m2 (saturated).
ASTM D1037: 1978 For Compressive strength or modulus/ Delamination strength/ Tensile strength/ Bending strength/ Impact strength,please consult Eternit Asia Panels Technical Department.
Part 4: 1970 Non-combustibility Non-combustible.Part 6: 1989 Fire propagation for products Index, I = 0.6; sub-index, i = 0.5.
BS 476 Part 7: 1071 Surface spread of flame Class 1 material.
Part 11: 1982 Heat emissionAverage temperature rise for specimen
is 60.8OC and 2.6OC within furnace.
ISO 1182: 1990 Non-combustibility Non-combustible.
NIOSH 9002 Asbestos detection No asbestos fibre was found.
2.4 Test Evidences
WORKING WITH ETERPANfi ETERPANfi TECHNICAL MANUAL EMD/LD01
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ETERPANfi boards are supplied on pallets suitable for fork liftunloading. If crane off loading by slings is envisaged, care shouldbe taken to avoid damaging edges of boards.
All pallets and crates can be safely handled by using a barge liftor hoisting equipment and straps. Steel cables should not be usedas it will damage both the pallet and the boards.
Where the crates have to be removed from a box container, careshould be taken not to subject the crates or pallets to any impactshock, as this could possibly result in cracking of the boards.
3.1 Loading & Unloading
The following recommendations must be always taken intoaccount when handling the panels.
i) Wherever possible, always lift boards from the stackbelow rather than slide board on board. This will preventdamage or scratches occuring to the lower boards.
FIGURE 6 Lifting of ETERPANfi boards
ii) Always carry the boards on edge but do not store on edge.
FIGURE 7 Carrying ETERPANfi boards
c) The boards must be protected from inclement weather.
FIGURE 4 Protection of ETERPANfi boards
d) The boards must be stored under cover.
FIGURE 5 Storage of ETERPANfi boards
3.4 Handling
Always drive the delivery vehicle as close as possible to the point wherethe boards are to be used. When transporting the boards it is essentialto firmly secure the pallets to prevent sliding.
The panels should be off-loaded using either a crane with strapsor a fork lift truck. No steel cables should be used as they maydamage the timber pallets. If the boards are subsequently movedaround the site the boards should be placed on a rigid base for theforklift tines. ETERPANfi should be stored on a rigid base.
3.2 Transport on Site
ETERPANfi boards are supplied with protective plastic sheetwrapped around the timber crates. This protection should not beremoved until the boards are ready to be used.
In general, the following steps should be taken to ensure that theboards remain in good condition during storage.
a) ETERPANfi boards should be stored on a covered dry-levelground, away from the working area of mechanical plant.
FIGURE 2 Stacking of ETERPANfi boards
b) Pallets should be a maximum of 800mm high, on firmlevel ground. If two or more pallets are stacked, the totalstack height must be less than 3200mm.
FIGURE 3 Maximum height of stacking
3.3 Storage
ETERPANfi boards are easy to handle and work using conventional tools. However, basic standard safety precautions should be taken at alltimes during installation. Highlighted is some general guidance for reference.
EMD/LD01 ETERPANfi TECHNICAL MANUAL WORKING WITH ETERPANfi
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There are a wide variety of applications and fixing methodspossible with ETERPANfi boards. The method to be used isdependant on a number of factors, amongst which are:
1) The shape of boards, be they square, rectangular,circular, etc.;
2) The location where the work is to be carried out, be itindustrial, commercial, on site or off site, etc.;
3) The quality of workmanship required.
ETERPANfi boards can be cut on site fairly easy. However, if alarge amount of boards are to be cut, it is recommended thatcutting is carried out off site under controlled conditions as muchas possible to ensure good quality of finished edges, etc.
The few general rules should be observed when working withETERPANfi boards, these are as follows.
For industrial and extended cutting life of tools, workingwith diamond tipped saws is recommended. Experienceshows that tools with carbide teeth will provide anadequate cut but the tools will wear at a faster rate.
High speed electric tools generate very fine dust. Inhalingfine dust can be harmful to health. Therefore, dustextraction or wet cutting is necessary. AlthoughETERPANfi boards contain no harmful fibres, inhalation ofexcessive nuisance dust can be detrimental to health andtherefore we would recommend that when cutting ordrilling any fibre cement products appropriate face masksshould be worn.
Slow running tools produce coarse dust or chips but arenot so efficient at cutting.
The speed of cutting will be determined by:- thickness of the board;- hardness of the board;- condition of the blade.
The boards must be held firm during cutting to avoidslippage and vibration which can lead to chipping of theboard edges.
The choice of the most appropriate tool for use in eachcountry will depend on custom, practice and localregulations.
A saw for universal use does not exist.
Each saw has its own limits and special field of use.
3.5.1 Industrial Machines
Industrial machines are used for continuous cutting over longperiods of time, for large quantities and for high efficiency. Thefollowing types can be identified.
Guillotine
The knife of the guillotine is parallel to the board support so thatthe cut is made at the same moment over the entire length of theboard. Up to a maximum thickness of 6mm, a very neat, squarecut can be achieved but the edge remains rough. The machinecuts the sheets one by one and is not suitable for texturedsurfaces.
Cutting with Diamond Tipped Blades
Cutting with diamond tipped blades is carried out using highspeed electric motor (2500-3000 rpm/min. depending on thediameter of the blade). There are 2 types of cutting machine:
1) Machine with fixed table and moving saw support;
2) Machine with fixed saw support and moving table.
The saw support can be equipped with several parallel saws formulti cutting in a single pass of the blades over the boards. Adiamond tipped blade can be used in either a wet or dry state.
FIGURE 8 Diamond tipped blade
The disadvantage of wet cutting is the generation of a cementslurry which forms from the mixture of the dust and water, whichmust be drained off in an appropriate way. In addition, it isnecessary to rinse the saw after each use to maintain the cuttingquality.
The boards should be cleaned after cutting to avoid leaving anydust particle on the surface. The wet diamond saw is the mostconvenient method of continuous cutting of ETERPANfi board aswell as other thick compressed or autoclaved panels, such asGLASALfi , etc. It can be used to cut more than one board at a timedepending on the diameter of the saw blade.
Continuous dry cutting of medium or low density products iscarried out with a diamond tipped blade, dust may adhere to thediamonds on the teeth of the blade due to the high workingtemperatures. A few cuts of highly abrasive stone will clean theblades effectively. In all cases dust extraction equipment isnecessary. The cutting can also be combined with a milling cutter.
Cutting with Carbide Blades
Tungsten carbide tipped saws can be used with either a high orlow speed electric motor. The cutting is done in a dry state so dustextraction is essential. The tungsten carbide teeth of the saw havea shorter life span than diamond tipped blades but they can be re-sharpened.
3.5 Cutting
WORKING WITH ETERPANfi ETERPANfi TECHNICAL MANUAL EMD/LD01
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3.5.2 Semi-industrial Machines
The semi-industrial machine described below is for dry cutting only.The machine will work with both high and low speed electric motors.
The high speed electric motor with diamond tipped blades can beused for other building materials such as concrete, natural stone,brick etc, while the low speed motor with tungsten carbide tippedblades for fibre cement materials.
Cutting ETERPANfi boards using this machine provides a neat cutand smooth edges.
FIGURE 9 Kolb cutting machine
The major advantages of this machine are:
Dry cutting;
High efficiency;
High quality of cutting;
Several boards can be cut at once;
The boards need not to be secured during sawing.
3.5.3 On-site Machines
Generally while working at site, hand tools and low speed electrictools are recommended. When high speed electric tools are used,dust extraction is then essential.
Power Tools with Dust Extraction Equipment
A sawing machine such as FESTO, Bosch, Makita, etc. works witha tungsten carbide tipped saw blade on a low speed electric motor(250 rpm) and moves over a fixed working table.
It is a typical machine for occasional use on site producing verygood results, and is capable of cutting boards with maximumthickness up to 20mm.
A vacuum cleaner is recommended for use whilst cuttingespecially when using power saws. As an additional safetyprecaution, always wear eye, ear and dust protection when usingpower tools of any description.
FIGURE 10 FESTO circular saw
A portable version of the working table is available for theconvenience of board cutting at site, as shown in figure below.
FIGURE 11 Portable cutting table
While working with power saws, the following important pointsshould be noted:
Ensure that the boards to be cut are continuously and wellsupported on either side of the cut.
A straight edge should be clamped in position to guide thecutting operation.
Care must be taken to ensure the tool remains against thestraight edge during the cutting operation.
The cutting rate should be such that the blade is notlabouring or over-heating. Normally the feed speed shouldbe slower than for natural timber.
3.5 Cutting continued from page 9
EMD/LD01 ETERPANfi TECHNICAL MANUAL WORKING WITH ETERPANfi
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Scoring Knife
This tool is equipped with a Tungsten Carbide tipped point. It issuitable to use for panels up to 5mm thick. Several passes arerequired on the board surface to produce a groove; then a straightedge is used to guide the knife. The final break is obtained byapplying pressure on the unsupported part of the board. The cutis relatively neat but the edge should be finished with glass paperor a plane.
FIGURE 12 Scoring knife
Jigsaw
This is applicable for panels up to 20mm thick. The panels can becut easily with a jigsaw to form various shapes. Saws with specialhardened teeth are available for cutting fibre cement such asETERPANfi boards. As with all power tools, care should be takento cut within the capacity of the tool and blade, do not force thecutting speed.
FIGURE 13 Jigsaw
Hand Saw
Hand sawing is suitable for general cutting operations and forsmall cuts, notchings or small penetrations. However, this methodof cutting is somewhat time consuming. As always, the fastestmethod of cutting is to allow the saw to work at its own speed.Trying to force the tool to cut faster merely blunts the teeth.
Hand Guillotine
The hand guillotine or parallel shears can cut flat sheets 6mmthick. Care should be taken when cutting near corners to avoidcracking occuring.
FIGURE 14 Hand guillotine
Rasp/Surform
A rasp or surform can be used for edge finishing where necessaryin order to trim away rough edging. For fine edge finishing, dressthe edges with fine glass paper, as shown in the figure below.
FIGURE 15 Glass paper
Drilling
Drilling can be carried out either by hand or any conventional powerdrill with or without dust extraction. For best results, the boardsshould be firmly supported behind the location of the holes.
Generally when working on fibre cement products, the use oftungsten carbide tipped drills with point angles of 60O to 80O ratherthan the more usual 120O type, are preferable and more efficient.
3.5 Cutting continued from opposite page
WORKING WITH ETERPANfi ETERPANfi TECHNICAL MANUAL EMD/LD01
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It is very often that apertures need to be cut within a board in orderto allow for penetration of services such as switchboxes, lights,access panels, etc. Therefore, the following procedures wouldserve as general guidelines to achieve this.
i) For smooth, clean cut circular holes:
- Mark the centre of the hole on the board.
- Pre-drill a hole to be used as a guide.
- Cut the hole to the require diameter using a hole sawfitted to a heavy duty electric drill where the central bitis inserted into the pre-drilled hole.
ii) For small irregular holes:
- Small rectangular aperture can be achieved by forminga series of small holes (using a drill) around theperimeter of the opening.
- Tap out the waste piece from the panel face carefully.Make sure that the edges are properly supported inorder to avoid damage to boards.
- Rough edges can be cleaned up with a rasp or 40 gritglass paper.
FIGURE 16 Nailing and hammering for openings
iii) For large openings or apertures:
- Score deeply around the perimeter of the opening usinga sharp tool.
- Form a large round hole in the centre using the methodpreviously described.
- Saw cut from the centre towards the corners of theopening.
- Tap waste pieces from the face side and if necessary,clean rough edges with a rasp or with at least 40 gritsand paper. Radius corners with a half round rasp toeliminate any stress points.
FIGURE 17 Apertures
Alternatively, for neater openings:
- Pre-drill a hole of at least 10mm diameter at the 4corners of the openings. Mark lines between hole tohole (forming a rectangular shape) as guide and cutalong the lines using Jigsaw or hand saw.
- Cleaning the rough edges of the hole can be done byusing a rasp.
FIGURE 18 Apertures opening using alternate method
NOTE: Never make holes by using heavy hammers, cold chisels orany other aggressive methods. This will damage the undersideof the boards.
3.6 Holes Forming
ANNOTATION DETAILS THIS PAGE
1 ETERPANfi board of appropriate thickness
2 Stainless steel or galvanised fixings, of appropriate size and length.
3 Steel stud of appropriate size
FIGURE 20 Layout of fixing points
FIGURE 21 INCORRECT sequence of fixing to steel stud
FIGURE 22 CORRECT sequence of fixing to steel stud
EMD/LD01 ETERPANfi TECHNICAL MANUAL WORKING WITH ETERPANfi
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The type of fixings used when installing ETERPANfi board areimportant as they determine the support of joints and stability ofa structure. In general, a fixing should meet the followingrules/requirements.
i) Corrosion resistant.
ii) Stainless steel or galvanised nails are recommended fortimber framing. Do not use screws when the board formspart of the structural bracing.
iii) Stainless steel, zinc or other plated self-drilling screws arerecommended for steel framing. Avoid using screws whenthe board forms part of the structural bracing.
iv) Fixing points should be located at least 12mm (preferably15mm) from the sheet edge and 50mm from sheetcorners. The nominal centres of fixing are generallyrecommended at 200mm and 300mm throughout thismanual when fixed using nails and screws respectively.See FIGURES 19 & 20.
FIGURE 19 Fixing distances from edge and corner of board
When fixing ETERPANfi board using nails, the following should benoted clearly.
Do not over-drive the fixings, as this may reduce theholding capacity of the fixing to the board.
Fixings should be drive straight into the board and at bestembedded 0.5mm below the board surface.
Do not damage the board around the fixing or its edges.Cracked sheets should be replaced.
When fixing ETERPANfi board, especially to steel frames usingscrews, the following should be noted.
Always pre-drill fixing holes unless using speciallydesigned self-drilling screws for fibre cement to steel.
Use a high-torque variable-speed screw gun with amaximum speed of 2500 rpm fitted with a depth gauge.
Do not over-drive, as this may reduce the holding capacityof the board to steel. Reduce drill speed as the screw pullsthe ETERPANfi board against the framing.
Note should be taken that when fixing to steel framing, always fixto the open side of the flange first to maintain a flush outside face.FIGURES 21 & 22 illustrates the correct sequence of installation.
3.7 Fixing of ETERPANfi Boards
WORKING WITH ETERPANfi ETERPANfi TECHNICAL MANUAL EMD/LD01
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Flush jointing is applicable to most partition and ceilingconstructions. However, in some instances it may be also applicableto external wall constructions (see Section 5.1 for more details).
Generally installations of concealed framed ceiling and partitionsystems require crack-free flush jointing. The method of constructingflush joints depends very much on the skills and know-how of theinstaller, as well as the stability of the supporting construction. It isrecommended that the thickness of panels used for flush jointingshould be of at least 6mm thick. Thinner boards are allowed onlywhen they are to be rendered with synthetic binders or textures at alater stage. Following are some guidelines for joint finishing in orderto achieve the required appearance. For further information, pleaseconsult Eternit Asia Panels Technical Department.
To obtain a flush joint it is important that all panels must havebevelled or recessed edges at the side where they abut otherpanels. Note that when a panel is cut to size on site, the bevel orrecess edge is often cut away. If a flush finish is required, thebevel or recess must be re-applied.
When the boards are ready for joint treatments, follow the stepsbelow to obtain the required finish:
a) After the installation of the boards, wait until the moisturecontent in the sheet is equivalent with that of the air. Thiswould normally take approximately 24 hours to achieve.Once this equilibrium moisture content is achieved,moisture induced movement will be lower, thus there willbe less risk of joints cracking.
b) Clean the surface of the joint area and apply an acrylic-based primer on the area of the joint (approximately300mm wide). This will prevent the absorption of moistureby the board from the filler which is to be applied later andthus enhance the strength of the joint. Recommendedprimers are such as the follows:
Transparent Alfa Dispersiegrond by Akzo Nobel;White Planiprim by Akzo Nobel;Acraprime 501/2 solvent based by Orica Coatings;Water repellent CFC sealer by Orica Coatings;EP 1662 by SEA;Flexicure 500 by Special Finishes Ltd.;Hitchins Joint Filler by Hitchins Gunac Ltd.;Others may be acceptable subject to prior testing.
c) Always work with clean tools and containers.
d) The work should be carried out in environment where theambient air temperature is at least 5OC or above.
e) Prepare the joint filler as per instruction prescribed by themanufacturer. Always use clean water where appropriate.
f) Fill the bevel with sufficient joint filler, see below figure.
FIGURE 23 Filling the joint
g) Apply a layer of reinforcing paper tape in the filler andcover the complete surface of the tape with excessiveamount of joint filler (well-embeded) using a spatula.
FIGURE 24 Applying reinforcing tape / Covering the tape
h) Let dry completely and sand the surface slightly with fine-graded sandpaper.
i) Apply a second layer of joint filler with wide trowel.
FIGURE 25 Joint finishing
j) Wait until it is completely cured and sand the surfaceagain slightly with same grade of sandpaper.
k) Depending on the level of finishing that is required onecan eventually use a last layer of joint finisher applied witha 280mm wide trowel (preferably curved trowel).
Normally joint fillers manufactured for use with plasterboards aresuitable for flush jointing of ETERPANfi board when installed withindry areas.
If primer is not to be used, it is recommended that the areas towhich the filler is to be applied should be pre-wet so that when theboards gradually dry out it will create tensile stresses into thejoints with sufficient adhesion.
Pre-wetting the boards also ensures they do not rapidly absorb themoisture from the filler, thus avoiding cracks in the joint occuring.
3.8 Flush Jointing
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However, please do take note that the described warranty onlyapply when the use of ETERPANfi -MD complies with the followinggeneral conditions.
1) The waterproof coating system on ETERPANfi -MD ismaintained over the service lifetime in order to remainimpervious to liquid or water.
2) All joints and profiles, apertures and cut-outs areadequately sealed to prevent any water ingress. All jointsealing systems are adequately maintained to preventdeterioration and subsequent water ingress.
3) Fungal growth on the sheet is not allowed to occur instructural bracing applications. Thus, ETERPANfi -MDshould not be exposed to conditions where it will remainalmost permanently damp; e.g. below ground or incontact with heavy lush foliage.
4) ETERPANfi -MD must be used with the appropriate groundclearances (minimum 100mm in paved areas and175mm in unpaved areas). Appropriate edge overhangalong the bottom plate must be used to prevent capillaryaction forcing water behind the material, and appropriatecoating on edges must be maintained to avoid wetting.
5) The fastener system does not degrade or suffer fromcorrosion. At least type 316 stainless steel fastenersshould be used rather than hot dip galvanised steel whenconstruction is located in the following areas:
a) Areas within 500 metres of the high tide mark where there are regular strong onshore winds.
b) Areas within 200 metres of the high tide mark where there are occasional strong onshore winds, or regular weaker onshore winds.
c) All areas within 100 metres of the high tide mark.Note that tidal estuaries should not be counted as partof the coast, but sea harbours should.
For orientation, it is recommended that ETERPANfi -MD is installedvertically at all times. However, in certain instances, such asinstallation of spandrel panel, parapet or where height is 1200mmor less, horizontal fixing is permitted. Please consult your localdealer or Eternit Asia Panels Technical Department for specificinstallation requirements.
While installing, one should ensure that the joints are correctlylocated at specific locations and the board edges are fullysupported with consideration of movement control joints.
It is important to construct staggered vertical joints in order tominimise the visual effect of any imperfections if sunlight strikesthe wall.
For external applications, ETERPANfi -MD in general provides thefollowing advantages and performances.
Weatherproof;
Durable;
Dimensionally stable;
Rot and termite resistant;
Strength and properties remain unchanged afteroccasional wetting;
Non-combustible and Class O building material, in accordance with BS 476: Part 4, 6 and 7 respectively.
Achieved 0 index on ignitability, spread of flame, heatevolved and smoked developed respectively inaccordance with AS 1530: Part 3.
The durability of ETERPANfi -MD is warranted by Eternit AsiaPanels for the following periods of time for all systems discussedbelow:
50 years in structural bracing and non-structuralapplications when sealed, stopped and coated withproprietary coating systems. The serviceable life of thecoated product will be 50 years provided the coatingsystem is properly maintained to prevent water entry.
15 years externally if uncoated.
4.1 Advantages & Durability of ETERPANfi -MD in External Wall
Awell designed cladding system is essential for buildings in order to provide a comfortable living or working environment as well as securityfor occupants. Other than the design, this involves proper handling, cutting, treating and installation of the materials. Therefore, thefollowing should be considered when working with ETERPANfi -MD.
A layer of sealer painted to a distance of 300mm up from bottom edge (front and back) of ETERPANfi -MD used at bottom of the building priorto installation is essential. This provides additional protection against moisture entry when exposed to a wet environment. The task can be donequickly by using a roller or brush while the boards are still stacked on pallets.
Note that the sealer coating must be compatible with the joint filling compounds and the texture coating system, if any to be applied at a later stage.
4.2 Sealing of ETERPANfi -MD
When installing ETERPANfi -MD external wall linings, the following details should be attended to.
Always install the board over breather-type building paper, building wraps or flexible sarking.
Treat the framing as required for the type of movement control joint detail being used.
Avoid using damaged boards during installation for smaller areas.
Avoid using stained boards as the stain may show through the finished texture.
Always ensure all cutting or trimming around openings is carried out in a neat and precise manner to ensure the correct fit is maintained.
FIGURE 26 Wall cladding general external applications
4.3 General Installation Considerations
DESIGN & INSTALLATION OF EXTERNAL WALL ETERPANfi TECHNICAL MANUAL EMD/LD01
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Proper construction for joints and junctions are critical indetermining the safety and life span of a building. A range ofdifferent types of joints or junctions can be constructed, with orwithout texture-coated system, some of which are detailed below.
Flush-stopped JointsGenerally installed vertically and not designed toaccommodate movement. It can be filled with flexibleor rigid exterior stopping compound.
Vertical Movement Control JointsDesigned to accommodate thermal, moisture andstructural movements.
Horizontal Non-movement & Movement JointsThe later is designed to accommodate thermal, moistureand structural movements.
Relief Joints
Internal & External Corners
Butt Joints with Other Materials
Openings for Windows, Doors etc
It is common for movement to occur on all built structures. Typesof movement are as follow.
i) Thermal movement due to temperature changes. Allmaterials expand and contract as external temperaturesrise and fall.
ii) Moisture movement due to shrinkage or expansion.A reversible dimension changes occur in fibre cementboard in response to changes in the relative humidity ofair, and also for timber if it is used as framing.
iii) Structural movement due to wind and earthquakeloadings.
Although ETERPANfi -MD is dimensionally stable, it is howeverrecommended and important to include appropriate movementcontrol joints in order to prevent the bowing, cracking or formationof peaks at joints due to movement of other elements.
Movement control joints are to be constructed both in vertical andhorizontal orientations.
4.7.1 Vertical Movement Control Joints
Generally movement control joints are installed at 3 metre centresalong the length of wall. In a wall with long length, both relief andvertical movement control joints are recommended such that oneis constructed followed by another, at appropriate distance. Alsoa movement control joint should be used when whenever there isa structural change, for instance the building framing change fromconcrete slab to timber-framed.
Careful planning of joint locations prior to installation could allowthese to be designed to be obscured by other building elementssuch as water piping to reduce the visual impact in terms ofappearance, or to be left intact as part of the design.
A number of options for the construction of movement joints areshown on the next page.
4.4 Joints & Junctions Construction 4.7 Movement Control Joints
The layout of joints should be planned in advance to ensure thatframing is set out to suit the board size and that the joints (be theyfor movement control, inter-storey etc) are located in the rightpositions. This will helps to minimise the number of joints andboard wastage.
Care should be taken that no joints are to be located directly abovethe jamb of window openings unless it is constructed as amovement control joint. We would recommend that the joint is tobe located at least 150-200mm in from the jamb, in order to stayaway from any area with great stress.
4.5 Joint Layout
Generally, flush-stopped joints are known as non-movementjoints. During installation, it is recommended that ETERPANfi -MDis firmly joined without gap:
ETERPANfi -MD with rebated or tapered edge finishing should beused when constructing flush-stopped joints. Should the productbe cut on site, applying new tapered edges must be performedprior to installation.
Also, it is recommended that when ETERPANfi -MD boards arefixed horizontally, vertical joints should be staggered. Should theinstalled structure connect to an existing wall element, such as amasonry wall, block wall, etc., a gap of at least 8mm should beprovided between ETERPANfi -MD and the existing wall element toallow for a movement control joint.
4.6 Non-movement Joints
Open-drained Expressed Joints
FIGURE 27 Expressed vertical movement control joint
Sealant-filled Joints
FIGURE 28 Sealed vertical movement control joint
Proprietary PVC Inserts
FIGURE 29 Proprietary PVC vertical movement control joint
Joints with Protective Cover Board or Strip
For instructions or more details on joints finishing, please consultyour local dealer or Eternit Asia Panels Technical Department.
4.7 Movement Control Joints continued from page 17
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ANNOTATION DETAILS THIS PAGE
1 ETERPANfi -MD with appropriate thickness
2 Proprietary acrylic paint coating
3 Proprietary texture coating
4 Timber or steel framing requirements, according to design
5 Butyl strip
6 Foam tape
7 Building paper
8 PVC jointer
9 Proprietary flexible sealant
10 Proprietary flush jointing material
11 Proprietary backing strip
12 Proprietary sealing strip
EMD/LD01 ETERPANfi TECHNICAL MANUAL DESIGN & INSTALLATION OF EXTERNAL WALL
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4.7.2 Horizontal Movement Control Joints
It is equally important to consider horizontal movement controljoints in terms of their location within a structure. For instance,inter-storey joints where ETERPANfi -MD crosses the timber floorjoists of the first or subsequent floors. Note that these joistsshould be located at every floor, or to a maximum distance of4.8m centres.
It is often that untreated and non kiln dried timber floor joists areinstalled. These will experience significant shrinkage especially forthose deeper than 200mm. Thus, installing horizontal controljoints makes allowances for this movement without compromisingthe weathertightness of the cladding or causing damage to thetextured coating.
General requirements for horizontal control joints are different forjoints in same plane and overlapping joints. They are as follows:
a) For joints in the same plane:
Provide a gap of at least 8mm between the ends of theboards to allow for joist shrinkage.
Incorporate either metal or PVC flashing.
Protect any sealant from direct exposure to weather.
Create a drip edge with any decorative trim.
Fixed decorative trims to the top sheetof ETERPANfi -MD.
Lap the upper building paper, building wrap or flexiblesarking over the flashing upstand.
b) For overlapping joints:
Provide a cover or overlap of at least 50mm.
Allow a 6mm anti-capillary gap which also allow fordrainage when necessary.
Do not block the anti-capillary gap with the texturedcoating, should this be applied at later stage.
The following construction methods for horizontal control jointscan be used.
ANNOTATION DETAILS THIS PAGE
1 ETERPANfi -MD with appropriate thickness
2 Building paper
3 Flooring
4 Metal or plastic flashing,with maximum 8mm gap between
5 EPS
6 Sealant filled with joint
FIGURE 30 Flashed horizontal joints with PVC or metal flashing
4.7 Movement Control Joints continued from opposite page
FIGURE 31 Flashed horizontal joints with PVC or metal flashing behind a planted-on polystyrene or other cover moulding
FIGURE 32 Sealant-filled movement control joint with EPS weather/UV shield
FIGURE 33 Over-lapped sheets
4.8.1 External Corner
i) Use two rebated sheets plus a PVC or stainless steelreinforcing angle, incorporating reinforcing mesh into thestopping compound. See example in picture below.
4.8 Corner Treatments
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ANNOTATION DETAILS THIS PAGE
1 ETERPANfi -MD with appropriate thickness
2 Timber or steel framing, size according to design
3 Building paper
4 PVC or stainless steel reinforcing angle
5 Proprietary textured coating
6 Reinforcing wire mesh
7 Back flashing made of butyl, metal or foam tape.
ii) Use two rebated sheets and ensure that any texturecoating is reinforced with mesh at the corner.
iii) Close butt square-edged sheets and ensure any texturecoating is reinforced with mesh at the corner.
FIGURE 35 External corner with reinforcing mesh texture coating
4.8.2 Internal Corner
A commonly used method is to provide a back flashing, made ofeither butyl, folded metal or foam tape, behind the ETERPANfi -MDboard. The boards are then installed with rebated edges into thecorner and allow a maximum 2mm gap between the boards.
FIGURE 36 Internal corner with back flashing
For more details please refer to Section 5.1, page 30.
FIGURE 34 External corner with reinforcing mesh stopping
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ETERPANfi -MD is often installed in a position where it is connected with other materials such as timber, masonry, concrete block, stucco, exteriorfinishing systems and etc. Junctions such as these must be detailed carefully to prevent water from penetrating through the joint.
For more details on installation of such junctions, please consult your local dealer or Eternit Asia Panels Technical Department.
Ground clearances should always be considered. When in contactwith soil, the ground moisture may be absorbed by theETERPANfi -MD board and creates the risk of fungal attacking oraffecting the internal framing.
Furthermore, blistering and peeling of coatings are possible.See example in picture below.
It is therefore recommended that a ground clearance of at least150mm should be provided for ETERPANfi -MD cladding systems.This additional ground clearance also allows for termite detectionfor timber framed walls.
4.9 Junctions
The bottom edge of the ETERPANfi -MD must be protected frommoisture uptake and thus be designed to:
Prevent capillary moisture uptake by spacing ETERPANfi -MD off the structure to provide an air gap behind thebottom of the board.
Provide an edge for surface water to drip off the claddingand be prevented from migrating into the structure bycapillary action, gravity or wind pressure.
Allow surface water to drain.
Allow access to the edge for future maintenance of thetextured coating, if necessary.
Have flashing correctly applied.
Ensure the bottom edge of the material is coated whentexture coating system is applied.
The most common method by far is placing a strip of sealed cellfoam or applying sealant to the bottom edge of the back of theboard prior to installation.
FIGURE 37 Anti-capillary gap
ANNOTATION DETAILS
1 ETERPANfi -MD with 5 Galvanised steel cloutappropriate thickness 40mm x 2.5mm
2 Building paper 6 Drip bead
3 Solid plaster 21mm 7 Damp proof course
4 Mesh reinforcing spaced off ETERPANfi -MD approx. 10mm
4.10 Bottom Treatment for ETERPANfi -MD
FIGURE 38 Parapet or balcony wall
Generally the top of parapets or balcony walls can be constructedin the following manner.
i) Form the top with ETERPANfi -MD board, and texture coatif required. A layer of waterproofing membrane isrecommended prior to applying texture coating to the wall,as this will improve the water resistance performancealong the top of the balcony or parapet wall, and preventwater ingress to the framing.
ii) Cover the top with a custom-made flashing.
In the latter case, the flashing should be installed in such a waythat it is sloped at least 15O so that the water can drain off easily.Also, there should be no fixings or penetrations through the top ofthe flashing. Handrails should be mounted on a bracket which isthen fixed to the side of the upstand wall, as illustrated in figureon the right.
ANNOTATION DETAILS THIS PAGE
1 ETERPANfi -MD with appropriate thickness
2 Building paper
3 Handrail mounted on bracket
4 Fix into side of upstand
FIGURE 39 Parapet or balcony wall with handrail
4.11 Parapets & Balcony Walls
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Detailed here are some common areas where flashings areutilised. Note that most of these details provide drip edges to thelower edges of the vertical sections.
ANNOTATION DETAILS THIS PAGE
1 ETERPANfi -MD with appropriate thickness
2 Building paper
3 Timber studs or structures
4 Flashing, to divert water out from wall
5 Metal flashing upstand
6 Proprietary fixing through sides
FIGURE 40 Back-flashed junction between balcony/parapet walland adjacent wall
FIGURE 41 Flashed parapet or nib
4.11 Parapets & Balcony Walls continued from opposite page
ANNOTATION DETAILS THIS PAGE
1 ETERPANfi -MD with appropriate thickness
2 Building paper
3 Timber cap with sloped top surface
4 Butyl flashing
5 Timber studs or structures
4.11 Parapets & Balcony Walls continued from page 23
DESIGN & INSTALLATION OF EXTERNAL WALL ETERPANfi TECHNICAL MANUAL EMD/LD01
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FIGURE 42 Capped parapet wall
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ANNOTATION DETAILS THIS PAGE
1 ETERPANfi -MD with appropriate thickness
2 Building paper
3 Flashing
4 Timber, uPVC or aluminium window framing
5 Flush joint finishing
6 EPS
FIGURE 43 Window openings
Water penetration around windows and doors has been acommon problem in building constructions due to poor design orconstruction. One simple method to solve the problem is toinclude back-up elements such as flashing so that any waterpenetration is caught by the flashing and drained to the outsidebefore causing damage to the building components.
FIGURE 44 Flashing at window opening
Generally, windows are constructed with either aluminium, uPVCor timber. Aluminium framed windows can be installed as eitherface fixed, where the flange or facing is installed over theETERPANfi -MD, or recess fixed, where the window is set backwithin the reveals. See example in picture below.
4.12 Windows & Doors
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When referring to face fixed aluminium windows, a head flashingthat projects a minimum of 15mm past each edge of the windowfacing or flange should be installed. It is recommended that thefront edge at the ends of the flashing be bent slightly to increaseprotection to the top of the window.
FIGURE 45 Head flashing
ANNOTATION DETAILS THIS PAGE
1 ETERPANfi -MD with appropriate thickness
2 Interior wall lining
3 Textured coating
4 Plastic or metal flashing
5 Window framing
6 EPS (optional)
4.12 Windows & Doors continued from page 25
EMD/LD01 ETERPANfi TECHNICAL MANUAL DESIGN & INSTALLATION OF EXTERNAL WALL
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ANNOTATION DETAILS THIS PAGE
1 ETERPANfi -MD with appropriate thickness
2 Internal wall lining
3 Window framing
4 Building paper
5 Cill flashing
6 Textured coating
7 Jamb flashing
8 Proprietary flexible sealant
9 Head flashing
A cill flashing should be installed to collect and discharge waterthat may enter through the window or door joinery or around thewindow jambs.
FIGURE 46 Head flashing and cill flashing
As for the window or door jambs, proprietary sealant should beused to seal the jamb facing to ETERPANfi -MD, as illustratedbelow. Do not seal the cill facing to the cill flashing as it needs toallow water that gets into the joinery system to drain freely.
FIGURE 47 Jamb flashing
For details about timber-framed windows installation, pleaseconsult your local dealer or Eternit Asia Panels TechnicalDepartment.
4.12 Windows & Doors continued from opposite page
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In addition, the following areas need careful attention. Note thatthe following drawings are for illustration purposes only. For morespecific details, please consult your local dealer or Eternit AsiaPanels Technical Department.
a) Attachment of deck to cladding.
FIGURE 48 Timber deck attached to ETERPANfi -MD cladding
ANNOTATION DETAILS THIS PAGE
1 ETERPANfi -MD with appropriate thickness
2 Internal flooring
3 Building paper
4 Flashing
5 At least 10mm packer (at each fixing)
6 Textured coating
7 Corrugated roofing
8 Apron flashing
9 Water proof membrane for roofing
10 Furring section
b) The ends of roof apron flashings and the guttering stopend abuts a wall surface.
FIGURE 49 Apron flashing
c) Waterproof deck abuts the bottom of a wall.
FIGURE 50 Wall and waterproof deck junction
4.13 Other Detailing
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ANNOTATION DETAILS THIS PAGE
1 ETERPANfi -MD with appropriate thickness
2 Pipe services
3 Sealing collar
4 Building paper
5 Sealant
6 Ductwork
7 Flashing
8 Pipe brackets
d) Penetrations through the cladding system(below and right).
FIGURE 51 Pipe penetrations
FIGURE 52 Ventilation duct penetrations
e) Attachment of downpipes or other accessories to thebuilding wall.
FIGURE 53 Downpipe bracket fixing
4.13 Other Detailing continued from opposite page
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There are essentially two types of jointing compound that can be used;namely acrylic jointing compound and cement-based stoppingcompound, depending on the installation requirements. Please consultyour local dealer or Eternit Asia Panels Technical Department forrecommendations. The basic procedures for joint stopping ETERPANfi -MD at equilibrium moisture content condition are as follows.
FIGURE 54 Joint stopping system
Apply a layer of compound to fill the rebate and let dry andallow any shrinkage to occur.
Apply a layer of reinforcing mesh or joint tape to the joint.
Cover with second layer (mesh coat) of compatible tapingor flushing compound.
Apply a final layer of tape or flushing compound asrequired once the mesh coat has dried.
When dried, sand the joint areas using fine sand paper togive a smooth and flat joint surface.
For movement control joints, it is recommended that these besealed using weatherproof silicone or polyurethane sealants. Priorto the application, it is advisable to provide a bond-breaking(polyethylene) tape to the back of the joint as sealant willaccommodate movement better when it is not bonded to the backof the filled joint. Priming of the joint is good practice especiallywhen ETERPANfi -MD has been cut on site. It will ensure thesealant will bond properly to the sheet edge.
When working external corners of a building, it can be flushstopped by installing a plastic or stainless steel corner reinforcingangle vertically up the corner and cover with stopping compound,as shown in figure below.
FIGURE 55 Plastic or stainless steel corner angle installed prior to stopping
The use of specially developed joint stopping compound on joints except the defined movement control joints, will provide a flat surface onwhich the texture can be applied later to give a monolithic and aesthetic appearance.
For internal corners, they are formed using boards having rebatededge that is then filled and reinforced as for a straight joint. Notethat the reinforcing mesh must be formed around the corner.
FIGURE 56 Internal corner stopping
ANNOTATION DETAILS THIS PAGE
1 ETERPANfi -MD with appropriate thickness
2 Building paper
3 Reinforcing wire mesh
4 Joint stopping compound
5 Plastic or stainless steel corner angle
6 Back flashing
There is a wide variety of texture coating system available in themarket, ranging from acrylic or polymer based to polymer-modified cement based plasters. Preparation and application oftexture coating may be different from each manufacturer, as wellas their requirements. Thus, it is advisable to obtain advice fromthe manufacturer or supplier prior to commencing application ofthe coating.
When ETERPANfi -MD is used in conjunctions with texture coating,the claddings provide the following features:
A lightweight cladding with a monolithic appearance.
A wide range of colour and texture options.
A substrate which is relatively stable and resistant tomoisture and insect damage.
A wide range of shaped decorative accessories that canbe adhered, after having all surfaces sealed or plastered,to the wall prior to coating/texturing.
Cost effectiveness.
Over the years ETERPANfi -MD has been successfully used inconjunction with many joint stopping/textured coating and mosthave proven to be compatible. For recommendations ofappropriate components, please consult your local supplier orEternit Asia Panels Technical Department.
5.1 Joint Stopping
5.2 Texture Coating System
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This installation method utilising a board thickness of 4.5mm as backing board and cover with reinforcing mesh and solid plaster. Details arefurther illustrated in the following pages.
FIGURE 57 Solid Plastering general arrangement and vertical joint
1 ETERPANfi -MD 4.5mm thick
2 Building paper
3 Solid plaster
4 Foam tape 50mm x 1.5mm
5 Galvanised steel nails 40mm x 2.5mmDistance from edge 12mmMaximum centres 200mmDistance from corner 50mmSee note (5) in Section 4.1, page 15
NOTE: Vertical control joints for solid plastering are required at maximum 4m centres, however the ETERPANfi -MD board joint does not need tobe coincident with the control joint. Control joint can be cut after solid plastering.
Corner detail of fixing
6.1 ETERPANfi -MD Backing Board for Solid Plastering
6 Polyethylene backing rod
7 Polyurethane flexible sealant
8 Mesh reinforcing spaced approx. 10mm off ETERPANfi -MD
9 Timber framing
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ANNOTATION DETAILS THIS PAGE
1 ETERPANfi -MD 4.5mm thick
2 Foam tape 50mm x 1.5mm
3 Building paper
4 Solid plaster
5 Mesh reinforcing spaced off ETERPANfi -MD approx. 10mm
6 Polyethylene backing rod
7 Polyurethane flexible sealant
8 Relief or control joint high build coating
9 Galvanised steel nails 40mm x 2.5mmDistance from edge 12mmMaximum centres 200mmDistance from corner 50mmSee note (5) in Section 4.1, page 15
10 Timber framing
6.1 ETERPANfi -MD Backing Board for Solid Plastering continued from page 31
FIGURE 58 Solid plastering - Horizontal control joint
FIGURE 59 Solid plastering - Expansion joint FIGURE 60 Solid plastering - Vertical control joint
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ANNOTATION DETAILS THIS PAGE
1 ETERPANfi -MD 4.5mm thick
2 Building paper
3 Staples or fixings minimum 35mm length
4 Solid plaster
5 Mesh reinforcing spaced off ETERPANfi -MD approx. 10mm
6 Polyethylene backing rod
7 Polyurethane flexible sealant
8 Galvanised control joint e.g. Keene XJ15-3
9 Galvanised steel nails 40mm x 2.5mmDistance from edge 12mmMaximum centres 200mmDistance from corner 50mmSee note (5) in Section 4.1, page 15
10 Drip bead
11 Proprietary angle bead
12 Damp proof course
NOTE: Dimension from permanently paved ground to height offinished floor level to be 150m, and for unpaved ground to be225mm.
6.1 ETERPANfi -MD Backing Board for Solid Plastering continued from opposite page
FIGURE 61 Solid plastering - Fixing lath to board
FIGURE 62 Solid plastering - Control joint
FIGURE 63 Solid plastering - Drip bead
FIGURE 64 Solid plastering - External corner
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ANNOTATION DETAILS THIS PAGE
1 ETERPANfi -MD 4.5mm thick
2 Proprietary aluminium window joinery
3 Building paper
4 Solid plaster
5 Mesh reinforcing spaced off ETERPANfi -MD approx. 10mm
6 Head flashing behind ETERPANfi -MD and extended past plaster
7 Jamb flashing behind ETERPANfi -MD and behind window reveal
8 Cill flashing to extend past jamb flashing
9 Jamb liner and internal lining
NOTE: It is not advisable to rely on sealants in lieu of jambflashings. We recommend the use of flashing at all times so as notto rely solely on the performance of sealants.
6.1 ETERPANfi -MD Backing Board for Solid Plastering continued from page 33
FIGURE 65 Solid plastering - Aluminium window head
FIGURE 66 Solid plastering - Aluminium window jamb
FIGURE 67 Solid plastering - Aluminium window cill
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ANNOTATION DETAILS THIS PAGE
1 ETERPANfi -MD 4.5mm thick
2 Timber window joinery
3 Building paper
4 Solid plaster
5 Mesh reinforcing spaced off ETERPANfi -MD ar approx. 10mm
6 Head flashing behind ETERPANfi -MD
7 Jamb flashing behind ETERPANfi -MD
8 Cill flashing to extend past jamb flashing
9 Jamb liner and internal lining
NOTE: It is not advisable to solely rely on sealants in lieu of jambflashings. We recommend the use of flashing at all times so as notto rely on the performance of sealants.
6.1 ETERPANfi -MD Backing Board for Solid Plastering continued from opposite page
FIGURE 68 Solid plastering - Timber window head
FIGURE 69 Solid plastering - Timber window jamb
FIGURE 70 Solid plastering - Timber window sill
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6.1 ETERPANfi -MD Backing Board for Solid Plastering continued from page 35
For wind and earthquake resistant constructions, 4.5mm thick ETERPANfi -MD has been subject to tests and shown to provide the followingperformance, which are dependent on the nail fixing configurations.
Substrate Fixing for board Wind Earthquake Remarks
Concrete slab 40 x 2.8mm 85 units/metre 70 units/metre General structural bracing: FIGURE 71(A)
Timber 40 x 2.8mm 85 units/metre 70 units/metre General structural bracing: FIGURE 71(B)
Timber 40 x 2.8mm 110 units/metre 85 units/metre General structural bracing with hold downs:FIGURE 72
FIGURE 71(A) Solid plastering general structural bracing - Board to slab
Fixings to be stainless steel nails 40mm x 2.8mm.
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6.1 ETERPANfi -MD Backing Board for Solid Plastering continued from opposite page
FIGURE 71(B) Solid plastering general structural bracing - Board to timber
Fixings to be stainless steel nails 40mm x 2.8mm.
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6.1 ETERPANfi -MD Backing Board for Solid Plastering continued from page 37
FIGURE 72 Solid plastering general structural bracing with hold downs on edges
Fixings to be stainless steel nails 40mm x 2.8mm.
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6.2 ETERPANfi -MD for Wall Cladding
ANNOTATION DETAILS THIS PAGE
1 ETERPANfi -MD 6mm thick
2 Butyl strip 50mm x 1mm
3 Foam tape 10mm x 6mm
4 Corrosion resistant staples at 400mm centres
5 PVC jointer
6 Building paper
7 Stainless steel nails 40mm x 2.5mmDistance from edge 12mmMaximum centres 200mmDistance from corner 50mmSee note (5) in Section 4.1, page 15
When a thin weatherproof coating is used, the minimum board thickness to be used should be at least 6mm, where it will provide to a degreeof impact resistant as well as protection against weather. A proper sealing system must be considered between board joints in order to preventrain water from penetrating through the structure.
6.2.1 6mm ETERPANfi -MD Wall System
FIGURE 73 6mm wall cladding - Expressed joint
FIGURE 74 6mm wall cladding - Framing layout
FIGURE 75 6mm wall cladding - Framing and fixing layout
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ANNOTATION DETAILS THIS PAGE
1 ETERPANfi -MD 6mm thick
2 Proprietary sealer
3 Proprietary acrylic high build coating
4 Foam tape 50mm x 1.5mm
5 PVC jointer
6 Building paper
7 Butyl strip 50mm x 1mm
8 Foam tape 10mm x 6mm
9 Stainless steel nails 40mm x 2.5mmDistance from edge 12mmMaximum centres 200mmDistance from corner 50mmSee note (5) in Section 4.1, page 15
10 Polyurethane flexible sealant
6.2 ETERPANfi -MD for Wall Cladding continued from page 39
FIGURE 76 6mm wall cladding - Close joint
FIGURE 77 6mm wall cladding - Sealed joint
FIGURE 78 6mm wall cladding - PVC joint FIGURE 79 6mm wall cladding - Expressed joint
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Two types of joint finishing can be used to provide watertight joints, as illustrated below. For other jointing methods, please consult your localsupplier or Eternit Asia Panels Technical Department.
6.2 ETERPANfi -MD for Wall Cladding continued from opposite page
ANNOTATION DETAILS THIS PAGE
1 ETERPANfi -MD 6mm thick
2 Proprietary sealer
3 Proprietary mesh
4 Proprietary mesh bedding compound
5 Proprietary finishing compound
6 Proprietary levelling coat
7 Proprietary sealer coat
8 Proprietary acrylic high build coating
9 Building paper
10 Galvanised steel nails 40mm x 2.5mmDistance from edge 12mmMaximum centres 200mmDistance from corner 50mmSee note (5) in Section 4.1, page 15
11 Aluminium strip 0.7mm x 100mm
12 Polyurethane flexible sealant
13 Foam tape 10mm x 6mm
14 Polystyrene moulding 20mm thick
15 PVC jointer
NOTE: Polyurethane flexible sealant first applied to aluminiumstrip (item 11) as adhesive for lower sheet. Then fill joint oncesecond sheet in place.
FIGURE 81 6mm wall cladding -General concealed joint
FIGURE 80 6mm wall cladding -General expressed joint
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For wind and earthquake resistant constructions, 6mm thick ETERPANfi -MD wall system has been subject to tests and shown to provide thefollowing performances, which are dependent on the nail fixing configurations.
Substrate Fixing for board Wind Earthquake Remarks
Concrete slab 40 x 2.8mm 106 units/metre 102 units/metre General structural bracing: FIGURE 82
Concrete slab 40 x 2.8mm 100 units/metre 100 units/metre General structural bracing: FIGURE 83
FIGURE 82 General structural bracing for 6mm wall system (106 and 102 wind units/earthquake metre)
Fixings to be stainless steel nails 40mm x 2.8mm.
6.2 ETERPANfi -MD for Wall Cladding continued from page 41
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FIGURE 83 General structural bracing for 6mm wall system (100 wind units/earthquake metre)
Fixings to be stainless steel nails 40mm x 2.8mm.
6.2 ETERPANfi -MD for Wall Cladding continued from opposite page
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6.2 ETERPANfi -MD for Wall Cladding continued from page 43
6.2.2 7.5mm ETERPANfi -MD Wall System
This is the most commonly used method for external wall application due to its excellent performance in terms of durability and strength ofracking resistance. The ETERPANfi -MD fibre cement boards must be supported directly by well constructed framing, or be it made timber orsteel framing.
a) Type E1Timber is a common material used to construct framing in some countries e.g. New Zealand and Australia.
FIGURE 84 7.5mm wall cladding general arrangement for Type E1 system ANNOTATION DETAILS THIS PAGE
1 ETERPANfi -MD 7.5mm thick
2 Building paper
3 Galvanised steel nailsDistance from edge 12mmMaximum centres 200mmDistance from corner 50mmSee note (5) in Section 4.1, page 15
4 Joint flushing compound(contact your local supplier or Eternit Asia Panelsfor a full list of approved joint stopping systems)
FIGURE 85 7.5mm wall cladding - Joint detail (Type E1)
FIGURE 86 7.5mm wall cladding - Framing and fixing layout (Type E1)
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ANNOTATION DETAILS THIS PAGE
1 ETERPANfi -MD 7.5mm thick
2 Proprietary sealer
3 Proprietary mesh
4 Proprietary mesh bedding compound
5 Proprietary finishing compound
6 Proprietary levelling coat
7 Proprietary sealer coat
8 Proprietary acrylic high build coating
9 Building paper
10 Galvanised steel nails 40mm x 2.5mmDistance from edge 12mmMaximum centres 200mmDistance from corner 50mmSee note (5) in Section 4.1, page 15
11 Foam tape 80mm x 1.5mm
12 PVC angle
13 Flexible sealant
14 Damp proof course
15 Tesa foam tape 10mm x 6mm
NOTE: Refer to NZBC E1, 150mm to paved ground and 225mmto cleared ground.
6.2 ETERPANfi -MD for Wall Cladding continued from opposite page
FIGURE 87 7.5mm wall cladding - Internal corner detail (Type E1)
FIGURE 88 7.5mm wall cladding - External corner detail (Type E1)
FIGURE 89 7.5mm wall cladding - Bottom plate detail (Type E1)
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6.2 ETERPANfi -MD for Wall Cladding continued from page 45
ANNOTATION DETAILS THIS PAGE
1 ETERPANfi -MD 7.5mm thick
2 Proprietary sealer
3 Proprietary mesh
4 Proprietary mesh bedding compound
5 Proprietary finishing compound
6 Proprietary levelling coat
7 Proprietary sealer coat
8 Proprietary acrylic high build coating
9 Building paper
10 Galvanised steel nails 40mm x 2.5mmDistance from edge 12mmMaximum centres 200mmDistance from corner 50mmSee note (5) in Section 4.1, page 15
11 Polyurethane flexible sealant
12 Polystyrene moulding 20mm thick
13 PVC jointer
14 Foam tape 50mm x 1.5mm
FIGURE 90 7.5mm wall cladding - Horizontal relief joint (Type E1)
FIGURE 91 7.5mm wall cladding - Vertical control joint (Type E1) FIGURE 92 7.5mm wall cladding - Vertical relief joint (Type E1)
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For wind and earthquake resistant structure, Type E1, as detailed on the previous pages, has been subjected to structural bracing tests, whichconfirmed a performance of 106 units/metre and 102 units/metre respectively. Please consult your local supplier for details.
b) Type E2
FIGURE 93 7.5mm wall cladding general arrangement for Type E2 system
6.2 ETERPANfi -MD for Wall Cladding continued from opposite page
ANNOTATION DETAILS THIS PAGE
1 ETERPANfi -MD 7.5mm thick
2 Paint system
3 Aluminium socket 80mm x 1mm
4 Polyurethane flexible sealant
5 Butyl strip 50mm x 1mm
6 Foam tape 10mm x 6mm
7 Corrosion resistant staples at 400mm centres
8 Stainless steel screws 40mm x 10swg orStainless steel nails 40mm x 2.8mm
9 Noggings min. 75mm x 50mm at max. 1200mm centres
10 Studs min. 75mm x 50mm at max. 600mm centres
11 Building paper
12 Mineral wool
NOTE: Refer to structural engineer for sizing of studs andnoggings according to wind loading requirements.
FIGURE 94 7.5mm wall cladding - Framing layout (Type E2) FIGURE 95 7.5mm wall cladding -Typical fixing layout for 2400mm x 1200mm sheet (Type E2)
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6.2 ETERPANfi -MD for Wall Cladding continued from page 47
c) Type E3In this construction, steel channels are utilised as the supporting elements.
FIGURE 96 7.5mm wall cladding general arrangement for Type E3 system ANNOTATION DETAILS THIS PAGE
1 ETERPANfi -MD 7.5mm thick
2 Building paper
3 Joint flushing compound
4 Stainless steel screws 40mm x 2.8mmDistance from edge 12mmMaximum centres 200mmDistance from corner 50mmSee note (5) in Section 4.1, page 15
5 Steel framing according to structural calculation
6 Thermal break strips 50mm wide x 9mm thick
FIGURE 97 7.5mm wall cladding - Framing joint (Type E3)
FIGURE 98 7.5mm wall cladding - Framing layout (Type E3)
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For wind and earthquake resistant structures, several systems using 7.5mm thick board have been subjected to structural bracing tests, whichconfirmed the following results. Please consult your local supplier for details.
Substrate Fixing for board Wind Earthquake Remarks
Timber floor 40 x 2.8mm 100 units/metre 100 units/metre General structural bracing: Similar toFIGURE 83 except using 7.5mm board
Timber floor 40 x 2.8mm 106 units/metre 102 units/metre General structural bracing: FIGURE 99
FIGURE 99 Construction of 7.5mm structural bracing test
Fixings to be stainless steel nails 40mm x 2.8mm.
6.2 ETERPANfi -MD for Wall Cladding continued from opposite page
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6.2 ETERPANfi -MD for Wall Cladding continued from page 49
Substrate Bracing length Wind Earthquake Remarks
Concrete slab 0.6-1.2m 112 units/metre 73 units/metre General structural bracing: FIGURE 100
Timber floor 0.6-1.2m 125 units/metre 120 units/metre General structural bracing: FIGURE 101
Timber floor 0.9-1.8m 158 units/metre 163 units/metre General structural bracing: FIGURE 102
Timber floor 1.2-2.4m 158 units/metre 151 units/metre General structural bracing: FIGURE 103
FIGURE 100 Frame layout and nailing pattern for bracing elementto concrete floor slab
Bracing length: 0.6-1.2m
For wind and earthequake resistant structure.Wind: 112 units/m; Earthquake: 73 units/m
FIGURE 101 Frame layout and nailing pattern for bracing elementto timber floor joists
Bracing length: 0.6-1.2m
For wind and earthequake resistant structure.Wind: 125 units/m; Earthquake: 120 units/m
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FIGURE 102 Nailing pattern for gib braceline to timber floor joists
Bracing length: 0.9-1.8m
For wind and earthequake resistant structure.Wind: 158 units/m; Earthquake: 163 units/m
FIGURE 103 Nailing pattern for bracing element to timber floor joists
Bracing length: 1.2-2.4m
For wind and earthequake resistant structure.Wind: 158 units/m; Earthquake: 151 units/m
6.2 ETERPANfi -MD for Wall Cladding continued from opposite page
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6.2 ETERPANfi -MD for Wall Cladding continued from page 51
6.2.3 9mm ETERPANfi -MD Wall System
The construction of this wall system is essentially similar to Type E2 system as described on page 47. The board thickness of 7.5mm is in factinterchangeable with 9mm thick ETERPANfi -MD board. For details, please refer to Type E2 system on page 47. Do take note of the followingrecommendations to be followed in order to produce a well constructed and watertight structure.
FIGURE 104 9mm wall cladding - Screw fixing detail ANNOTATION DETAILS THIS PAGE
1 ETERPANfi -MD 9mm thick
2 Butyl strip 80mm x 1mm
3 Foam tape 10mm x 6mm
4 Stainless steel screws 40mm x 10 swg
5 Epoxy filler
NOTE 1: Refer to NZBC E1, 150mm to paved ground and 225mmto cleared ground.
NOTE 2: Peel back foam tape and cut Butyl strip.
NOTE 3: Peel back and cut foam tape.
FIGURE 105 9mm wall cladding - Internal corner
FIGURE 106 9mm wall cladding - External corner
FIGURE 107 9mm wall cladding - Bottom plate detail
FIGURE 108 9mm wall cladding - Overlap joint for butyl strip
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6.2.4 ETERPANfi -MD Rainscreen Cladding System
Along with the improvement in today s building technology, arainscreen cladding system utilising ETERPANfi board has beendeveloped for external use. It is applicable to either new buildingsor the refurbishment of old structures. The type of ETERPANfi
board used is of medium density (ETERPANfi -MD) with a thicknessof at least 9mm or 12mm, dependent on the wind loadingrequirements.
Some of the major advantages provided by rainscreen claddingsystems are shown on this page.
FIGURE 109 Preventing thermal bridges
The insulating material should be mounted on the outside of thestructural wall without interruptions caused by the floor slabs.Thus thermal bridges that occur at each floor slab can be avoided.
FIGURE 110 Dissipating heat from the sun
Heat passing through the exterior wall board is partially dissipatedby the ventilating effect of the air space between the exteriorcladding board and the structural wall.
FIGURE 111 Rainscreen profile
The air current flowing within the cavity evaporates water andhumidity that might have penetrated behind the cladding panelsvia the panel joints. This water should not then reach theloadbearing wall structure and/or the insulation layer.
FIGURE 112 Protecting the basic structure and load bearing wall against temperature variations
Due to the insulation material being applied to the outside of thebuilding, changes in temperature are very minor compared withthose found in conventional constructions where insulation isapplied on the interior. This principles works in both hot and coldclimatic conditions.
FIGURE 113 Prevention of internal condensation
Insulation material can be applied to the outside of the wallstructure without risk of it remaining wet due to the effects ofcondensation, as it is being effectively protected by thearchitectural cladding boards and ventilated air space.
6.2 ETERPANfi -MD for Wall Cladding continued from opposite page
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6.2.4 ETERPANfi -MD Rainscreen Cladding System
Component of System
The type of framing used should be at a minimum fabricated fromhigh quality galvanised steel profiles, as detailed below.
FIGURE 114 ΩΩ profile rainscreen
For use as support at board joints.
FIGURE 115 Z profile rainscreen
For use as support at mid width of board.
FIGURE 116 L profile rainscreen
For use as support at corners.
The framing is supported by high quality adjustable galvanisedsteel brackets, fixed directly to the substrate by means of anchorbolts. This adjustable bracket offers a ventilated cavity range from65mm to 125mm, in order to accommodate insulation material(optional) as well as allowing natural ventilation of air behind thecladding boards.
Depending on requirements, this is achieved by selecting anappropriate size of L bracket, as detailed below.
Size Minimum distance Maximum distance
30mm 40mm 55mm
50mm 55mm 60mm
65mm 70mm 85mm
FIGURE 117 Supporting bracket rainscreen system
FIGURE 118 Adjustable bracket rainscreen system
FIGURE 119 L bracket rainscreen system
In those instances where insulation material is required, it can befixed to the existing substrate using rosette pins. However, oneshould ensure that the cavity between the surface of insulationmaterial and back of ETERPANfi -MD should be not less than40mm, in order to maintain free and smooth air flow throughthe cavity.
6.2 ETERPANfi -MD for Wall Cladding continued from page 53
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Joint Treatments
HORIZONTAL JOINTWhere necessary, a horizontal V-profile, as illustrated below, witha thickness of at least 1mm, can be used to cover the horizontalboard joints to prevent water from penetrating through the joints.
FIGURE 120 Horizontal joint rainscreen profile
TOP & BOTTOM COVERINGIn order to allow adequate ventilation within the cavity whilstkeeping vermin out, a non-perforated (top, weatherproof) and aperforated (bottom, allows air movement) cavity closure can beused at top and bottom respectively.
WINDOW CILLSWindow cills, made of PVC, aluminium etc, should beincorporated in both vertical and horizontal orientations withinwindow openings, with an extended distance of at least 20mmfrom the board surface to prevent back splash of rain water, andsubsequent discolouration.
FIXING & SURFACE FINISHING OF ETERPANfi -MDThe fixing of ETERPANfi -MD to the supporting framework can becarried out by means of self-tapping screw of at least M3.5 x25mm, of appropriate material. It is recommended thatETERPANfi -MD board should be pre-drilled before the fixings areapplied. The fixing points can then be finished using anappropriate sealing compound that is suitable for external use aswell as compatible with the paint material.
One of the advantages of using ETERPANfi -MD rainscreencladding system is that there is no restriction on either colourselection or decoration, thus providing the architects freedom ofdesign and innovation. For this application, water-based paint isrecommended and should be carried out strictly in accordance toinstructions from paint manufacturer.
It should be noted that in some types of application and undercertain climatic conditions, it may be preferable to prime the rearsurface of the ETERPANfi -MD prior to installation, to ensure theboards remain flat and no bowing occurs. Please consult EternitAsia Panels for details.
6.2 ETERPANfi -MD for Wall Cladding continued from opposite page
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System Installation
General requirements for profile installation:
The vertical support profiles can be fixed to the substrateeither directly or by using supporting brackets. The type ofanchorage used can be either self-drilling screws oranchor bolts, depending on material of the substrate.
The maximum horizontal distance between verticalsupporting profiles should not be more than 615mm.
The maximum vertical distance between supportingbrackets for a profile should not be more than 1500mm.
Each vertical supporting profile should have at least 3points of support. Otherwise, the maximum verticaldistance between supporting brackets should be reducedto 1000mm.
NOTE: The recommended distance clearances are subject tochange in accordance with wind loading requirements.
FIGURE 121 Installation of rainscreen system
General requirements for board installation:
Subjected to conditions, ETERPANfi -MD can be fixed inboth horizontal and vertical orientations. The cleardistance for fixing points in various location should complyto the following requirements.
Condition Maximum distance
Horizontal clearance between fixing points ≤ 600mm
Vertical clearance between fixing points ≤ 250mm
Horizontal clearance from edge of board 25mm
Vertical clearance from edge of board 50mm
Note: If exposure of fixing head is preferred for architectural reasons, thenfixing head of size ≥ 12mm is recommended.
From an aesthetic point of view, it is recommended that a10mm gap between board joints, be it horizontal orvertical, is incorporated.
FIGURE 122 Vertical joint detail
6.2 ETERPANfi -MD for Wall Cladding continued from page 55
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Typical Drawing Details
FIGURE 123 Internal corner
FIGURE 124 External corner
FIGURE 125 Horizontal connection to window profile
ANNOTATION DETAILS THIS PAGE
1 ETERPANfi -MD 7 Sealant
2 Profile 8 Air cavity
3 Existing substrate 9 Stainless or galvanised steel omega profile
4 Insulation 10 L profile
5 Adjustable bracket 11 Fixing element
6 Perforated closure
FIGURE 126 Vertical connection to window profile
FIGURE 127 Horizontal cross section
FIGURE 128 Vertical cross section
6.2 ETERPANfi -MD for Wall Cladding continued from opposite page
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Material Consumption
Based on experience and estimation, the consumption of materials per m2 of an endless wall, using standard board size of 2440mm x 1220mm,vertically orientated and without openings, is tabulated below.
NOTE: these are minimal amounts and should be used for reference only. In instances where door or window opening is required, consumptionof material may increase or decrease.
Material Quantity per m2
ETERPANfi -MD 1m2
Ω profile 1.63m
Z profile 1.63m
Support bracket 1.08 set
Anchorage for bracket 1.08 pieces
Fixing for profiles 2.16 pieces
Fixing for boards 10.95 pieces
Fixing for insulation material 9 pieces
Insulation material 1m2
6.2 ETERPANfi -MD for Wall Cladding continued from page 57
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6.3 Soffit & Eaves
FIGURE 129 Soffit and eaves
ANNOTATION DETAILS ABOVE
1 ETERPANfi -MD 4 Roof decking
2 Existing wall 5 Gutter
3 Alumimium angle
Other than cladding applications, ETERPANfi -MD is often used toconstruct soffit and eaves boards. ETERPANfi -MD is rot proof andtolerates wet and damp conditions. Normally ETERPANfi -MD ofminimum 4.5mm thick is used for this application but could be upto 9mm depending on construction requirements.
ANNOTATION DETAILS: FIGURES 130-132
1 ETERPANfi -MD 4.5mm thick
2 PVC jointer
3 Galvanised steel nails 40mm x 2.5mmDistance from edge 12mmMaximum centres 200mmDistance from corner 50mmSee note (5) in Section 4.1, page 15
4 PVC corner moulding
5 Ribbon plate ex. 40mm
6 Soffit outriggers ex. 50mm
7 Polythene backer 50mm
FIGURE 130 PVC jointer for soffits (see layout on page 60)
FIGURE 131 Expressed joint for soffits (see layout on page 60)
FIGURE 132 Corner moulding for soffits (see layout on page 60)
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6.3 Soffit & Eaves continued from page 59
FIGURE 133 General arrangement for soffits ANNOTATION DETAILS THIS PAGE
1 ETERPANfi -MD 4.5mm thick
2 Timber batten
3 Galvanised steel nails 40mm x 2.5mmDistance from edge 12mmMaximum centres 200mmDistance from corner 50mmSee note (5) in Section 4.1, page 15
4 Rebated fascia board
5 Ribbon plate ex. 40mm
6 Soffit outriggers ex. 50mm
FIGURE 134 Framing layout for 450/600/700mm wide soffits FIGURE 135 Framing layout for 1200mm wide soffits
EMD/LD01 ETERPANfi TECHNICAL MANUAL PARTITIONS
The general advantages provided by these partition systems are as below:
Fire resistanceETERPANfi board itself is a non-combustible material in accordance with BS 476: Part 4. ETERPANfi drywall partitions therefore will notcontribute to fire by burning and will offer a degree of protection for the evacuation of personnel from the building safely.
Compact systemThe overall thickness of ETERPANfi partition is generally 50% of a half brick wall, thus giving additional space, important in these timesof high floor space rental costs.
LightweightThe overall weight of ETERPANfi -MD drywall partition is approximately 20kg/m2. This is only 8~10% of 1/2 brick wall; and approximately16kg/m2 if ETERPANfi -LD is used. Thus the total weight of the building is greatly reduced. This results in the loadbearing structure andthe foundation being much lighter. This also means the total cost of construction will be reduced effectively.
Thermal insulationHaving a cavity with a drywall partition, the system provides very good thermal insulation. In addition, the thermal conductivity coefficientof ETERPANfi board is only 1/3 of that of bricks and therefore can also be used as an energy efficient partition system. In order to increasethermal efficiency, mineral wool panels can be inserted in the cavity.
Sound insulationAlthough lighter than masonry, ETERPANfi drywallpartitions provide good sound insulation when testedaccording to ISO 140 series or equivalent standards. Dueto the high flexibility of light metal studs and elasticity ofthe fibre cement board, the partition system provides goodsound absorption as well. Inclusion of mineral wool battsinto the wall cavity will improve the level of soundinsulation.
Fast installationThe installation of metal studs and ETERPANfi board is easyand requires only simple and portable tools. The installationtime required for a dry wall system is estimated to be 1/3 ofmasonry wall.
Easy decorationThe surface of partition can be decorated after completion of the construction. Decorative finishes such as paint, wall paper, laminatesand tiles can be applied without any special treatment requirements.
Easy installation of electrical wiring and sanitary ductsThe problems caused by wiring or pipe installation within masonry walls is easily overcome within ETERPANfi drywall partitions. The cavitywithin the partition system is an ideal and practical space for the installation of all kind of conduits, wiring and pipe services.
DurableDue to the main component of ETERPANfi board being cement and quartz (sand), the durability of the partitions are comparable tomasonry walls.
7.1 Advantages of ETERPANfi Partition Systems
Combining ETERPANfi board with light metal studs to construct non-loadbearing partitions is a dry work technique which is used world-wide. Without doubt this versatile construction system is so popular because of its simplicity and therefore requires only short installationtime. Nevertheless, its characteristics are unbeaten and can meet the highest requirements. The system is flexible so that it canovercome most difficulties of installation.
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Details described in the following are based on conventional methods of construction, and should be used as a guideline only. If there are specialrequirements to be considered during construction, please consult Eternit Asia Panels Technical Department.
7.2.1 Specifications of ETERPANfi Boards & Profiles
In general, ETERPANfi -MD and ETERPANfi -LD with thicknesses of 6mm, 9mm or 12mm respectively are recommended for partition constructions.
For guidance purposes, the framing of the partition comprises of horizontal U-profiles and vertical C-studs made of galvanised steel, witha standard length of 3m or 6m. Other lengths may be used depending on local market availability.
FIGURE 136 Selections of U-profiles and C-profiles (for guide only)
7.2 Specifications of ETERPANfi Partition Systems
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Code Thickness Dimension WeightC50 0.63mm 50mm x 50mm 0.81kg/m
Code Thickness Dimension WeightU75 0.63mm 75mm x 40mm 0.75kg/m
Code Thickness Dimension WeightC75 0.63mm 75mm x 50mm 0.93kg/m
Code Thickness Dimension WeightU100 0.63mm 100mm x 40mm 0.86kg/m
Code Thickness Dimension WeightC100 0.63mm 100mm x 50mm 1.05kg/m
Code Thickness Dimension WeightU50 0.63mm 50mm x 40mm 0.63kg/m
Top and bottom tracks
Top and bottom tracks
Top and bottom tracks Vertical studs
Vertical studs
Vertical studs
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7.2.2 Fixing Elements
Fixing to Surrounding Structure
The use of fixing elements for U- and C- profiles on the perimeterof the partition to a substrate depends on the nature of thesurrounding structure.
SELECTION OF FIXING ELEMENTS
Substrate Fixing elements
Concrete, brick Expansion bolts, bullet nails, screws and plugs
Wood Nails, screws
Fixing of Profiles
When fixing profiles to each other, rivets of minimum size 4mmdiameter x 8mm can be used. Alternatively, a crimping tool can beused. See figure below.
FIGURE 137 Crimping tool
Fixing of Flat Sheets
The sheets are normally fixed to profiles using self-tapping screwsof an appropriate size (recommend at least M4 x 25mm).
FIGURE 138 Fixing elements
7.2 Specifications of ETERPANfi -MD Partition Systems continued from opposite page
7.3.1 Considerations & General Assembly
During the design stage, choose the right profile taking intoaccount the height of the wall, the type of room and the dimensionof any conduit that must be incorporated within the cavity of thepartition.
If the wall is higher than 2.44m, the horizontal joint between thepanels is supported by cross studs, cut out from U-profiles.However, 3m long ETERPANfi -MD can be supplied upon request.
The recommended maximum height of the wall is as below.
MAXIMUM HEIGHT OF WALL
Stud type High traffic areas (1) Low traffic areas (2)
C50 3,000mm 3,600mm
C75 3,200mm 4,200mm
C100 4,000mm 5,000mm
NOTES:1) Places such as meeting rooms, classrooms, exhibition rooms, department
stores and other public areas of high usage.2) Places such as residential apartments, offices etc.3) For high partitions please consult Eternit Asia Panels Technical Department.
The installation sequences are as detailed below:
a) Before beginning the installation, trace the position ontothe floor and ceiling profiles and mark clearly to indicatedoor and window openings, sanitary equipment and thepenetration points of conduit pipes. This does not onlyfacilitate the installation of services after completion, butgives the opportunity to distribute materials such asboards, profiles, doorframes etc. adequately over theworkplace while the total area is still free.
b) Start with the installation of U-profiles on floor and ceiling.At junctions where two partitions meet, leave a spacebetween the U-profiles which are equal to the thickness ofthe ETERPANfi board to be used, to accommodatepotential movements.
FIGURE 139 Making and material distribution
ANNOTATION DETAILS THIS PAGE
1 Traced lay out
2 Bundle of profiles
3 Sheets
4 Horizontal profiles
5 Vertical profiles
6 Bullet nail or expansion bolt or screw and plug
FIGURE 140 Installation of U-profiles and tolerance for movements
c) Fix the C-profiles against the adjacent walls. Themaximum distance between fixing points is a nominal800mm. The studs are then inserted into the U-profiles atnominal 610mm centres. Note that the length of thesestuds should be 10mm less than the floor-to-ceilingdistance, in order to accommodate expansionmovements.
7.3 Partition Construction
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d) Extra studs are placed at a wall end, junction and at both sides of large openings. When the wall is higher than the length of a sheet,noggings made up of U-profile can be used to back the horizontal joint between panels.
FIGURE 141 Installation of studs and openings (see page 67 for vertical sections A-A and B-B)
1 U-ceiling profile
2 U-floor profile
3 Horizontal cross profile
4 Vertical C-profile
7.3 Partition Construction continued from opposite page
e) The ETERPANfi sheets are cut to size 10mm shorter than the height of wall. After adjusting the studs the sheets can be screwed to theprofiles in such as way that the joints at both sides of the partition are staggered. Leave a joint of 5mm between the panel and the floor.Screws are fixed at nominal 250mm centres, at 15mm from the edges and 50mm from the corner of the sheets.
FIGURE 142 Board installation (see opposite page for vertical sections A-A and B-B)
1 Ceiling profile 5 Self-tapping screw
2 Floor profile 6 Bullet nail, expansion bolt or screw and plug
3 Horizontal profile 7 ETERPANfi -LD
4 Vertical profile
f) ETERPANfi board can be supplied bevelled on 1, 2, 3 or 4 edges.
g) When partitions are of a height above the length of a single sheet or when apanel is cut to size, the board must be bevelled on site to facilitate theapplication of a jointing compound. For small amounts a plane with a hardenedsteel blade can be used. Otherwise an angle grinder with a carborandum bladecan be utilised for large quantities. For larger volumes tools with diamond tippedblades are recommended.
h) When fixing the board, the head of the screw must be inserted 0.5mm belowthe surface of sheet to obtain flush finishing during the application of jointingcompound.
7.3 Partition Construction continued from page 65
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FIGURE 143 Depth of screw
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7.3.2 General Details
Typical L-Junctions, T-Junctions & Partition Ending
Care should be taken that where the partition wall is to end floating, e.g., is not fixed to a substrate, the last stud should be boxed to ensure thepartition has additional stiffness and strength.
FIGURE 144 L-junctions, T-junctions and partition ending
Door (vertical section A-A)
At either side of an opening for doors an extra stud must be fixedby means of rivets or equivalent to ensure the partition hasadditional stiffness at this point to withstand the stress imposed bythe door. The studs should continue at 610mm centres over thedoor. The U-profile above the door is fixed to the extra studs bymeans of rivets or equivalent. See FIGURES 141 or 142 fordetails and below for door cross section. The sheets that cover thearea beside and above the door should not be cut in two pieces.
7.3 Partition Construction
Window (vertical section B-B)
At both sides of the window one extra stud must be fixed.. Underand above the window additional U-profiles are also fixed afterbeing cut to size. See FIGURES 141 or 142 for details and belowfor window cross section.
ANNOTATION DETAILS THIS PAGE
1 ETERPANfi board
2 Profiles
3 Screw fixings
Small Openings Not Coinciding with Stud
Around the opening a bridging construction of U- and C-profiles isfixed with rivets. See FIGURE 141 for details.
Incorporation of Conduit Piping
FIGURE 145 Installation of conduit pipes
Fixing of Light Elements
To fix light elements to the partition, one can use screws, hooksor screws with special cavity wall plugs.
FIGURE 146 Fixing of light elements
ANNOTATION DETAILS THIS PAGE
1 ETERPANfi board 5 Screw fixing
2 Galvanised profile 6 Plywood as backing board
3 Services 7 Basin
4 Hanger
Fixing of Heavy Elements
When heavy elements such as wardrobe, shelves, wash basin,etc. must be fixed, inclusion of wood, plywood or heavy stud arerequired to transfer the load to the framing and thus avoiddamaging the sheets.
FIGURE 147 Fixing of heavy elements
7.3 Partition Construction continued from page 67
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7.3.3 Joint Finishing
Level of Surface Finish
Before any jointing work is started the surface of the joint must becoated with a primer over a width of 300mm, symmetrical dividedover both panels.
Apart from the applications where no finishing of the joints andstopping of the screw holes is required or where no aestheticrequirements are given one can distinguish three grades of finish,as below:
GRADE ATo be chosen if the surface is finished with non-textured coatingsor with a high build finish. It is strongly recommended in all caseswhere critical lighting conditions occur. All joints must be finishedas described in page 14. The total surface must then be finishedwith a thin layer of skim coat. This last layer must be finished inan absolutely smooth manner.
GRADE BTo be chosen if the surface is finished with textured coatings orwallpaper in situations with non-critical lighting. All joints must befinished as described in page 14. Furthermore, a third layer witha special joint finishing product must be applied. The screw headsmust also be finished in a similar manner.
GRADE CTo be chosen if the surface is finished with tiles, vinyl or heavytextured finishes. The surface of the construction must be treatedin a way that any possible uneven part will not reflect through thefinished layer.
Flush Joint
When panels with bevelled edges are used and if the wall is higherthan the length of the sheets, the panels must be bevelled alongthe width on site. The jointing system comprises of plaster-basedjoint filler and reinforcing paper tape, as described in page 14.
FIGURE 148 Flush jointing on board with bevelled edges
When panels with straight edges are used, one should leave a4mm opening between boards and further fill with the same jointfiller to obtain a semi-flush joint.
FIGURE 149 Flush jointing on board with straight edges
Decorative Joint
This method leads to a much quicker mounting of theconstruction. Profiles that are covering the joint can be used to fixthe panels in the same time. In that case, if a panel width of610mm is used, no other fixings are needed which provides theopportunity to finish the panels once mounted.
When Ω-profiles are used, the distance between the studs mustbe adapted to enlarge the joint between the panels. Whendemountable walls (see page 72) are required in areas such asoffices, etc., these type of profiles give the possibility to do so atminimal cost.
Expansion Joint
In areas subjected to very high moisture variations, reduce thedistance between the vertical profiles to 407mm and anexpansion joint of 4mm every 3 panels should be allowed for.
ANNOTATION DETAILS THIS PAGE
1 Joint filler
2 ETERPANfi board
3 Self-tapping screw
4 Paper tape strip
5 Building paper
7.3 Partition Construction
7.3.4 Other Finishing Details
External & Internal Corners
FIGURE 150 External and internal corners
Wall-Ceiling Junction
Several options can be used for this detail.
FIGURE 151 Wall-ceiling connections
7.3.5 Decoration
Before applying any decoration; at all times strictly follow the paintmanufacturers recommendations.
Paint
All kinds of paints suitable for fibre cement products areacceptable. They can be applied by spray, brush or roller on thesurface of the sheet. The instructions of the paint manufacturermust be strictly followed at all time. For a water-based acrylicpaint, it is advisable to first apply primer before applying two layersof acrylic paint.
Wall Paper, Textile Laminates
All manner of flexible wall covering materials can be adhered ontoETERPANfi board, provided accumulated dust on board surface isfirst removed. The instructions of these adhesive supplier must bestrictly followed at all times.
Tiles
When ETERPANfi partitions are to be tiled in wet rooms, thedistance between the studs must be reduced to 407mm. thepartition must have an expansion joint every 3 panels. Thisexpansion joint must coincide with a joint between the tiles whichis filled with elastic caulking material such as silicones,polyurethanes, etc. The tiles must be fixed with a flexible syntheticadhesive formulated for tiles and use on fibre cement boards. Useonly compressive grouts for tiling. In wet room applications specialprecautions must be taken: before tiling a waterproof membranemust be applied and all pipe penetrations must be sealed with aflexible sealant.
For more details regarding the use of ETERPANfi board in wetareas, please refer to page 85.
ANNOTATION DETAILS THIS PAGE
1 ETERPANfi board
2 Galvanised profile
3 Flush finished at corner
4 Corner profile for edge protection
5 Suspended element
6 Primary framings
7 Secondary framings
8 Plinth cornice
9 Covering profile
7.3 Partition Construction
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7.4.1 Wall Lining
For the refurbishment of brick or concrete walls, an ETERPANfi boardfacing can be used. To increase the rigidity of the construction, onemay put an intermediate fixing point by means of a 20mm wideETERPANfi strip. If required additional insulation materials can bepositioned between the wall and the ETERPANfi board.
FIGURE 152 Wall refurbishing
1 Mineral wool
2 ETERPANfi board
3 Top track
4 Bottom track
5 Vertical profile
7.4.2 Sound Insulating Partition
When high sound insulation performance is required specialconstructions can be made. In this case, attention must be givento providing an airtight connection between the partition and thesurrounding structure, in order to avoid passage of sound throughany gaps.
Asymmetrical Construction
A special sound insulating effect is obtained when two differentthickness (i.e. 9mm and 12mm) or products of two varyingdensities (i.e. plasterboard and ETERPANfi ) are used at both sidesof the stud.
FIGURE 153 Asymmetrical construction
Independent Stud
Contact between the ETERPANfi board at both sides of the partitioncan be avoided by using a double stud grid that is not linked. Thiswill reduce sound transmission through the construction.
FIGURE 154 Double studs system
For reference, tabulated below are STC levels obtained fromvarious partition configurations, constructed using ETERPANfi -MDboards.
Sound Insulation Performance of ETERPANfi -MD Partitions
Board thickness Type of Board placed Insulation STC(mm) studs to studs rating
C-channelOne side Nil 36
12 metal studsBoth sides
Nil 47Yes 53
9Timber
Both sidesNil 45
studs Yes 52
Should further information be required concerning acousticperformance of ETERPANfi board, please consult Eternit AsiaPanels Technical Department.
7.4.3 Impact Resistant Wall
When a high impact resistance partition is required, fix two layersof ETERPANfi -MD on both sides of the stud. However, note shouldbe taken that the second sheet must be fixed with longer screws(minimum M4 x 35mm).
This method will also increase the sound and thermal insulationperformance of the partition.
FIGURE 155 Impact resistant wall construction
7.4 Special Applications
7.4.4 Demountable Partition
Using ETERPANfi -MD, a demountable partition is possible to construct in several ways, two such example is as follows.
Demountable Partition Using Ω-Profiles
Pre-decorated panels of nominal 610mm wide can be fixed with Ω-profiles to the studs. The partition can be dissembled and reassembledsimply by removing and relocating the fixing screws of the omega s.
FIGURE 156 Demountable partition using ΩΩ-profiles
Pre-fabricated Demountable Partition
Pre-fabricated composite panels are fixed at floor and ceiling level onto L-profiles. The partition is finished by means of a skirting and a covingat the junction with the ceiling. Joints between panels can be left open or can be finished with a cover profile. For more information, pleaseconsult Eternit Asia Panels Technical Department.
FIGURE 157 Pre-fabricated demountable partition
7.4.5 Material Consumption
Based on experience and estimation, the consumption ofmaterials per m2 of an endless wall, with height of 3000mm usingstandard sheet size of 2440mm x 1220mm, without openings, isas tabulated on the right.
Note these are minimal amounts and should be used as a guideonly. The exact quantity of material required must be calculatedfor an individual project.
MATERIAL CONSUMPTION
Material Quantity/m2
U-profiles 0.67m
C-studs 1.63m
U-cross studs 0.33m
Fixing to surrounding structure 0.83pcs
ETERPANfi board 2m2
Screws 30pcs
Joint filler 0.5kg
Paper tape 2.3m
7.4 Special Applications
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Some of the advantages presented by these ceiling systems are as below:
Fire resistanceETERPANfi board itself is a non-combustible material in accordance with BS 476: Part 4. Thus in the event of fire, the ceiling systemcould give a degree of resistance to allow the occupants to evacuate safely from the building.
Humidity resistanceWhen in contact with constant humidity, ETERPANfi board remains stable and does not disintegrate.
Fast installationThe installation of profiles and ETERPANfi boards are simple andrequire only simple and conventional installation tools.
Good thermal and sound insulationWhen a layer of mineral wool is lay on top of the panel, it enhancesthe sound and thermal insulation of the ceiling system, which isalso energy saving. When perforated ETERPANfi boards are usedalong with mineral wool, the whole then forms a perfect soundabsorption barrier.
LightweightThe light weight property ofETERPANfi board allows easyhandling and fixing.
Easy installation ofE&M servicesThe cavity above ETERPANfi
ceiling system is an ideal andpractical space for installationof E&M services such as air-conditioning ducts, electricwiring etc.
Harmless to humans and animalsVarious tests confirmed that there is no dispersionof harmful fibres in places where ETERPANfi boardis used in the event of fire. The ETERPANfi sheetdoes not release toxic gases or smoke.
Long life circleETERPANfi board is made from mixture of cementand quartz. Therefore the durability of the ceilingscan be expected to exceed 25 years.
8.1 Advantages of ETERPANfi Ceiling Systems
ETERPANfi board can be combined with several types of profile systems to construct a variety of suspended ceilings. Due to their simplicityand short installation time, ETERPANfi ceiling systems have gained popularity in building construction. Moreover, their aesthetic andtechnical characteristics can meet most requirements and are so flexible that all difficulties in detailing can be overcome.
Note that the STANDARD THICKNESS OF ETERPANfi BOARD RECOMMENDED FOR CEILING SYSTEMS IS 6MM THICK. System with thicker boardsare heavier and would need additional safety precautions, meaning additional framing could be needed to support the extra weight.
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8.2.1 Sheet Size
Generally ETERPANfi -MD of thickness 4.5mm and 6mm arenormally preferred for exposed Tee-grid ceiling construction, indimensions of either 595mm x 595mm, 595mm x 1195mm,605mm x 605mm or 605mm x 1195mm.
If ETERPANfi -LD is used, the preferred thickness then ranges from6mm to 9mm or even 12mm, depending on requirements. Inaddition, ETERPANfi -LD can be perforated in various patterns foruse as a sound insulation ceiling barrier, which will provide aresult ranging from 30dB to 35dB. For more information on lowdensity sound insulation ceiling board, please consult Eternit AsiaPanels Technical Department.
For a concealed ceiling system, ETERPANfi -MD with a thicknessof 9mm or 12mm is preferred.
8.2.2 Profiles & Accessories forETERPANfi -MD Ceiling Systems
In order to maintain the integrity and durability of ETERPANfi
ceiling systems, the type of profile used for framing is important,especially if it is designed as a load-bearing structure.
The following are some profiles that are commonly used and thuseasily available. The size of profiles can be amended at any timeas long as they possess comparable performances as thefollowing, which should be treated as the minimum requirementsfor constructing the ceiling system.
Exposed Tee-Grid Ceiling System
This visible grid system comprises of Tee-main profiles fixed tothe ceiling with metal rods and Tee-cross profiles. Additionally, L-profiles are used along the perimeter of the wall. Theseaccessories are made of either natural anodised aluminium,galvanised or powder-coated metals.
FIGURE 158 Essential elements for Tee-grid ceiling system
Concealed Ceiling System
The metal structure of the suspended ceiling is composed of adouble grid of C-profiles and accessories, made of 0.63mm thickgalvanised steel. The standard length of the C-profile is either 3mor 6m.
FIGURE 159 Typical profiles for ceiling construction
Self-Supporting Ceiling System
This system utilises the same profiles as for partitions, which isillustrated on page 62.
8.2 Specifications of ETERPANfi Ceiling Systems
Type C-60 profile
Dimension 60mm x 27mm
Primary profile,Application secondary profile or
cross profile
Type C-60 profile
Dimension 60mm x 27mm
Primary profile,Application secondary profile,
or cross profile
Type Hangers orwire ∅ 4mm
Dimension 90mm x 58mmx 1.5mm
Application Fix the primaryprofile to the ceiling
Type Cross fixer
Dimension 27mm x 55mmx 25mm (0.8mm)
Fix the cross profileApplication to the secondary
profile
Type Fixing hooks
Dimension 50mm x 58mmx 0.8mm
Fix the secondaryApplication profile to the
primary profile
Type Connector
Dimension 27mm x 61.5mmx 100mm (0.8mm)
Application To link twoC-60 profiles
Main profile
Wall profile(L-profile)
Cross profile
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8.2.3 Fixing Elements
Fixing of the Profiles
The fixing elements used to fix the suspended wire to the ceilingor the L and U-profiles to the walls depend on the nature of theceiling or wall material, are as tabulated below.
Fixing for Substrates
Substrate Fixing elements
Concrete, brick Expansion bolts, bullet nails, screws and plugs
Wood Screws
Fixation of Fibre Cement Sheets
Self-drilling screws at least of M4 x 25mm are used to fix theETERPANfi board to the profiles. Note that the screws must becountersunk below the surface of board with a depth ofapproximately 0.5mm if a smooth finished surface is required. Thefixing of the sheets is executed from the centre of the sheet andworks towards the perimeter.
When a panel is cut to size, the bevelled edge is often cut awayand thus bevelling must be carried out on site in order to obtain aflush finished surface.
8.2.4 Joint Finishing Product
To finish the bevelled edges of the sheets, plaster-based joint fillerand reinforcing paper tape can be used. See page 14 for moredetails.
8.2 Specifications of ETERPANfi Ceiling Systems
8.3 Construction of Ceiling
8.3.1 Concealed Ceiling
This system is the most appropriate for the installation of large area suspended ceilings. The opening between the end of the profiles and thewall must be 10mm to accommodate possible expansion movements. For ceiling spans in excess of 5000mm, an additional expansion jointshould be incorporated within the main tee sections
FIGURE 160 Concealed ceiling
1 ETERPANfi board
2 Hanger wire
3 Hanger
4 Fixing hook
5 Cross fixer
6 Connector
7 Cross profile
8 Primary profile
9 Secondary profile
The installation sequence is detailed below:
1) First the primary profiles are fixed in parallel at 1220mm centres by means of the hangers and steel wires to the floor slab above. Notethat the distance between the fixing points should be at approximately 1220mm centres. The springs of the hangers allow for a perfectlevelling of the primary profiles.
2) All primary profiles must be in one perfect plane before the secondary profiles are fixed at 610mm centres by means of fixing hooks.
3) At the position of the longitudinal joints between the sheets, cross profiles of –545mm long are fixed to the secondary profiles at1220mm centres by means of two cross-fixers.
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4) When a profile must be extended by means of aconnector, this must be staggered from profile to profile.The sheets must be installed perpendicular to thesecondary profiles in such a way that the end joint of thepanels are staggered. No gaps should be left betweenadjacent panels. Screws are installed at 250mm centres,at 15mm from the edges and at 50mm from the corners.The panels are not fixed to the wall which means that theceiling is completely independent from the surroundingstructure.
FIGURE 161 Fixing of boards and distance of fixing points
5) Non-parallel parts of the ceiling must be separated withan expansion joint. The layout of boards should followFIGURE 162. Large ceiling areas must be divided bymeans of expansion joints. Maximum size of one partshould not exceed 9760 x 6700mm.
FIGURE 162 Layout of ceiling panels
ANNOTATION DETAILS THIS PAGE
1 Primary profile
2 Secondary profile
3 Cross profile
4 Hanger
5 Hanger wire
6 Cross fixer
7 Fixing hook
8 ETERPANfi board
8.3 Construction of Ceiling continued from page 75
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8.3.2 Self-supporting Ceiling
During the design stage, choose the right width of the profiletaking into account the maximum allowable span. This system isthe most appropriate for the construction of suspended ceilingswithin narrow rooms or corridors.
Selection of Channel Size According to Span
Type of stud Maximum span (mm)
C-50 2150
C-75 2950
C-100 3500
The additional advantages of this system are:
Independent from the movement of the structural floorslab above.
No hangers are required, which leads to shorterinstallation time and a completely free cavity foraccommodation of ductwork and services.
The installation sequence for self-supporting ceilings are asfollows:
i) Before commencing the installation, mark the position ofthe U-profiles on two stable opposing walls. The U-profilesare fixed by means of screws and plugs or expansion boltsat nominal 625mm centres.
FIGURE 163 Fixing of primary and secondary profiles
ANNOTATION DETAILS THIS PAGE
1 Wall U-profile
2 Horizontal C-profile
3 Tie member
4 Fixing point
5 Rivet
6 Main profile
7 Cross profile
8 L-profile
9 Wire ∅ 2mm
10 ETERPANfi board595mm x 595mm605mm x 605mm or605mm x 1200mm
ii) C-profiles are cut to size and inserted into the U-profilesat nominal 410mm centres and fixed to them by means ofrivets. To avoid buckling and movement of the C-profiles,a U-profile is fixed across, every 2400mm, to act as a tiemember. When the span is more than those indicated inthe table on the left, please consult Eternit Asia PanelsTechnical Department.
FIGURE 164 Reinforcement against buckling and movements
8.3.3 Tee-grid Ceiling
This is a widely used ceiling system. Simple in installation, theworking sequence is as follows.
a) The L-profiles are first fixed at nominal 600mm centres tothe walls at the perimeter of the ceiling.
b) The Tee-main profiles are then positioned at nominal600mm or 610mm centres, by means of steel wirehangers.
c) The Tee-cross profiles are inserted into the main profilesat intervals of nominal 600mm or 610mm.
d) ETERPANfi -MD of dimensions either 595mm x 595mm,605mm x 605mm or 605mm x 1200mm are then laidinto the Tee-grid. A cavity of minimum 250mm isrecommended above the ceiling line, to allow ease ofinstallation and removal of the ceiling panels.
Note: When heavy elements are to be fixed to the ceiling,additional hangers that are capable of carrying these loads shouldbe incorporated within the grid support.
FIGURE 165 T-grid ceiling
8.3 Construction of Ceiling
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Following are typical methods of creating apertures in ceiling systems. For further details, please consult Eternit Asia Panels TechnicalDepartment.
FIGURE 166 Opening for concealed ceiling
FIGURE 167 Opening for self-supporting ceilingANNOTATION DETAILS THIS PAGE
1 Primary profile
2 Secondary profile
3 Hanger
4 ETERPANfi board
5 Wall U-profile
6 Horizontal C-profile
7 Rivet
8.4 Opening in Ceilings
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FIGURE 168 Opening for T-grid ceiling
1 Main profile
2 Cross profile
3 Fixing or clip
8.4 Opening in Ceilings continued from opposite page
CEILINGS ETERPANfi TECHNICAL MANUAL EMD/LD01
80
8.5.1 Finishing of Panel Edges
Before commencing any jointing work, the bevelled edge of thepanels must be pre-coated with primer.
Flush Joint
When flush jointing is required, use panels with bevelled edges.The jointing material used is gypsum-based joint filler andreinforcing paper tape. For more details, please refer to page 14.
Decorative Joint
There are several types of profile which can be used to finish ajoint.
FIGURE 169 Decorative joint
ANNOTATION DETAILS THIS PAGE
1 Self-tapping screw
2 Screw
3 Wooden profile
4 Support profile
5 Edging profiles
6 ETERPANfi board
Open Joint
In some instances, an open joint is preferred for aestheticreasons. The common method of constructing such finishing is asillustrated below.
FIGURE 170 Open joint
8.5.2 Wall-Ceiling Junction
The connection between wall and ceiling can be constructed inthe manner as illustrated in FIGURE 151.
8.5.3 Expansion Joint of Ceiling
An expansion joint is essential for ceilings with large areacoverage, in order to accommodate any possible movement anddeformation of building structure. The simple method ofconstruction is as illustrated in below.
FIGURE 171 Expansion joint in ceiling
8.5 Joint Finishing
EMD/LD01 ETERPANfi TECHNICAL MANUAL CEILINGS
81Based on experience and estimation, the consumption ofmaterials per m2 of an endless ceiling is tabulated as follows. Noteshould be taken that these values are for reference only.
8.7.1 Material Consumption of Tee-grid Ceiling
Material Quantity per m2
ETERPANfi board 1m2
Cross profile 2.69 pieces
L-profile 2 x (length + width)
Fixing to ceiling 1.64 pieces
Main profile 1.64m
8.7.3 Material Consumption of Self-supporting Ceiling
Material Quantity per m2
ETERPANfi board 1m2
Screws M4 x 25mm 14pcs
Material C-50 C-75 C-100
C-profiles 2.04m 2.04m 2.04m
U-profiles 0.93m 0.68m 0.57m
U-cross profiles 0.47m 0.34m 0.29m
Fixing of U-profile to wall 1.49pcs 1.08pcs 0.91pcs
Fixing of U-profile to C-profile 3.80pcs 3.47pcs 2.92pcs
Joint filler 0.25kg
Reinforcing paper tape 1.23m
8.7 Material Consumption
8.7.2 Material Consumption of Concealed Ceiling
Material Quantity per m2
ETERPANfi board 1m2
Screws M4 x 25 14 pieces
C-60 primary profiles 0.82m
C-60 secondary profiles 1.64m
C-60 cross profiles 0.74m
Hanger, wire (∅ 4mm) & fixing element 0.67 pieces
Fixing hooks 2.67 pieces
Cross fixer 2.67 pieces
Connector 0.82 pieces
Joint filler 0.25kg
8.6 Decoration of Ceiling
Before applying any decoration, the ceilings must be pre-coatedwith a primer.
For lay-in grid systems, it is important that the rear surface of thepanels are primed to ensure bowing or warping does not occur.This is of particular importance in areas of use where there maybe markedly different day or night temperature and humiditychanges.
Decorative materials can be paint, wall paper, laminates etc.
8.6.1 Paint
Although all kinds of paints are suitable for fibre cement products,water-based acrylic paints are, however, the preferred type. Theycan be applied by using spray, brushes or rollers onto the boardsurface. Paints should be applied strictly in accordance withmanufacturer recommendations.
8.6.2 Wall Paper, Textile, Laminates
Almost all kinds of flexible wall covering materials can be gluedonto ETERPANfi board. Appropriate bonding agent should beapplied as per manufacturer recommendations.
FLOORING ETERPANfi TECHNICAL MANUAL EMD/LD01
82
ETERPANfi -MD is eminently suitable for use as floor and staircasedecking. For instance, as a base sheet for tiled floor, floors in wetenvironments or water-proof decks.
Where ETERPANfi -MD is to be used as the sole floor boardingmaterial, fixed above steel purlins or timber joists, and is requiredto form a loadbearing function, the general recommendation is forthe use of a 20mm thickness. However, a lesser thickness ofETERPANfi -MD can be used, depending on the loadingrequirements, the dimension and span of the supportingstructure, and the support centres for the board. Withconsideration for the appropriate safety factors, calculations canbe performed to check on suitability of ETERPANfi -MD for aspecific installation. Please consult Eternit Asia Panels TechnicalDepartment.
The following tables provide some guidelines for reference whendesigning a floor system. The supporting framings consideredhere are of timber. However, alternate steel structures withadequate strength of support are acceptable.
9.1.1 Requirements of 20mm ETERPANfi -MD Flooring
Loadings Joist spacing (mm)
300 400 450 600
Residential1 layer 1 layer 1 layer 1 layer
(2.0kPa, 1.8kN)
Office1 layer 2 layers 2 layers 2 layers
(2.5kPa, 2.7kN)
Garage 2 layers 2 layersNot appropriate
(2.5kPa), 9.0kN) (glued) (glued)
9.1.2 Residential Floor Loadings /Required Floor Joist Spacing (1.5kPa, 1.8kN)
Floor joist size Maximum span of joints (m)(mm x mm) at a maximum spacing (mm) of
400 450 600
100 x 50 1.80 1.75 1.25
150 x 50 2.80 2.70 2.00
200 x 50 3.80 3.60 3.25
250 x 50 4.80 4.60 4.15
300 x 50 5.75 5.50 5.00
9.1.3 Residential Floor Loadings /Required Floor Joist Spacing (2.0kPa, 1.8kN)
Floor joist size Maximum span of joints (m)(mm x mm) at a maximum spacing (mm) of
400 450 600
100 x 50 1.45 1.40 1.25
150 x 50 2.60 2.40 2.00
200 x 50 3.50 3.35 2.85
250 x 50 4.40 4.25 3.60
300 x 50 5.20 5.05 4.30
ABOVE: ETERPANfi -MD as base sheet for auditorium stage andstaircase steps.
9.1.4 Office Floor Loadings /Required Floor Joist Spacing (2.5kPa, 2.7kN)
Floor joist size Maximum span of joists (m)(mm x mm) at a maximum spacing (mm) of
300 400 450 600
100 x 50 1.60 1.45 1.40 1.25
150 x 50 2.60 2.40 2.25 1.90
200 x 50 3.40 3.20 3.10 2.60
250 x 50 4.20 4.00 3.90 3.30
300 x 50 5.10 4.80 4.60 4.00
9.1 General Information
EMD/LD01 ETERPANfi TECHNICAL MANUAL FLOORING
83
ETERPANfi -MD for floor applications can be constructed as follows.
FIGURE 172 Decking and floors
FIGURE 173 Flooring details
NOTE: Square edges ETERPANfi -MD should be used in this case.
ANNOTATION DETAILS THIS PAGE
1 ETERPANfi -MD of appropriate thickness 6 P.E. backing rod
2 Screws 50mm long 7 Trafficable sealant
3 Joist minimum width 50mm 8 Bituthene membrane
4 Noggings at all butt joints, minimum width 50mm 9 Polyurethene sealant
5 Foam tape 50mm x 1mm
9.2 Flooring Details
OTHER APPLICATIONS ETERPANfi TECHNICAL MANUAL EMD/LD01
84
The versatility of ETERPANfi board is practically unlimited. It can be used in different areas and for multiple applications. The following aresome areas where ETERPANfi -MD has been widely used other than the traditional partition and ceiling constructions. ETERPANfi -MD canbe used as backing boards and underlay for tiles especially in sanitary areas such as bathrooms, kitchens, etc. Minimum board thicknessshould be of at least 6mm thick depending on the area of application, the type of framing and the surface finish.
10.1 Decoration of Tiled Wall
FIGURE 174 Tiled wall
Detail 1: Relief joint at every change of direction Detail 4: Control joint
Detail 2: Flush joint Detail 3: Relief joint Detail 5: Relief joint at floor wall junction
ANNOTATION DETAILS THIS PAGE
1 ETERPANfi -MD 7.5mm or 9mm thick
2 ETERPANfi -MD tile and slate underlay of 6mm thick
3 P.E. backing rod
4 Flexible silicone or polyurethane sealant
5 Proprietary flush jointing system
6 Galvanised nails 40mm x 2.8mm, distance from edge 12mmat maximum centres 200mm
EMD/LD01 ETERPANfi TECHNICAL MANUAL OTHER APPLICATIONS
85
Generally, the use of timber studs is interchangeable with steel channels. Also, in order to provide better surface for tile bonding, ETERPANfi -MD of 7.5mm thickness with a textured surface has been developed to aid improved adhesion.
10.1 Decoration of Tiled Wall continued from opposite page
ANNOTATION DETAILS THIS PAGE
1 ETERPANfi -MD with textured surface
2 Ceramic tile, or other finishes
3 P.E. backing rod
4 Flexible silicone or polyurethane sealant
5 Proprietary flush jointing system
6 Stainless steel self-tapping screws 32mm x 3.2mm,distance from edge 12mm at maximum centres 200mm
FIGURE 175 Tiled wall, with textured ETERPANfi -MD as backing board
Detail 1: Relief joint Detail 2: Control joint
OTHER APPLICATIONS ETERPANfi TECHNICAL MANUAL EMD/LD01
86
10.2 Bath Tub Vanity Panels
FIGURE 176 Bath tub vanity panel
FIGURE 177 Kitchen or bathroom unit surface
ANNOTATION DETAILS THIS PAGE
1 ETERPANfi -MD minimum 7.5mm or 9mm thick 6 Galvanised nails or screws 40mm x 2.5mm, distance from edge 12mm and from corner 50mm
2 ETERPANfi -MD minimum 12mm thick 7 Vanity top
3 Tiles, stone or other finishes 8 Decorative finish
4 Floor slab 9 Basin
5 Steel or timber supported bath tub
10.3 Kitchen/Bathroom Unit Top
EMD/LD01 ETERPANfi TECHNICAL MANUAL OTHER APPLICATIONS
87
10.4 Reference
MATERIAL SAFETY DATA SHEET ETERPANfi -MD
88
ETERPANfi -MD.
1 Trade Name
Inhalation: Remove to fresh air.
Skin contact: Wash thorough with water.
Ingestion: Give plenty to drink.
Eyes: Flush copiously with fresh water.Seek medical advice if irritation or discomfort persists.
10 First Aid / Emergency Procedures
Storage at Pallets should be stored on flat site/warehouse: surface in a dry, covered and well
ventilated area, protected against dust and rain.
During transport: Should be covered with tarpaulin.
11 Storage Precautions
Handling: Use sufficient natural or mechanical ventilation to reduce dust level below the Threshold Limit Value (TLV).
Goggles: Use safety glasses whenever machining the product(drilling, sawing, sanding, etc.)
Clothing: Use working clothes and gloves to protect against mechanical injury.
Respirator: Approved respiratory protective equipment should be made available while working in concentrations above or around TLV.
Overalls: Normal protective working overallsare adequate.
12 Precautions for Safe Handling & Use
Spilled materials: Collect dust with vacuum cleaner during fabrication. If sweeping is necessary, use a dust suppressoror wet-sweep work areas.
Waste disposal: Dispose as a building product waste, according to the local regulations.The collected dust is to bind with cement before disposing in a landfill.
The health and safety information contained herein is believed tobe accurate and correct based on our current knowledge at thedate of issue and no liability can be accepted for any loss, injuryor damage resulting from its use. It is intended as a guide for thesafe handling, storage and use under normal conditions, but doesnot necessarily refer to the particular requirements of a customerwhen further advice should be obtained.
This data sheet and information it contains is not intended tosupercede any terms or conditions of sale and does not constitutea specification. Nothing contained herein is to be construed as arecommendation for use in violation of any patent or applicablelaws or regulations.
13 Spill or Leak Procedure
Eternit, Etex Group.
2 Manufacturer
Light yellowish with smooth surface.
3 Product Appearance
Natural organic fibre cement, calcium silicates hydrates, selectedquartz.
4 Product Composition
General building material for external and internal applications.
5 Product Approved Uses
Nominal Density: 1300kg/m3
Nominal specific gravity (H2O = 1): 1.35
pH (10% solution): 10-11
Odour: Nil
Solubility in water: Nil
6 Physical Data
Non-combustible in accordance with BS 476: Part 4, ISO 1182-90.
7 Fire & Explosion Data
Occupational 10mg/m3
exposure limits: (total inhalable dust)0.1mg/m3
(respirable quartz particles)
Primary route(s) of entry: Inhalation of dust.
Medical conditions(which may be aggravated): Respiratory conditions.
Target organ(s): Lungs.
8 Health Hazards
Inhalation: Acute over exposure to dust may cause irritation of the respiratory tract.
Skin contact: Prolonged contact could lead to irritation for sensitive persons.
Ingestion: Mild discomfort.
Eyes: Mild transient irritation or inflammation.
9 Health Effects
ETERPANfi -LD MATERIAL SAFETY DATA SHEET
ETERPANfi -LD.
1 Trade Name
Inhalation: Remove to fresh air.
Skin contact: Wash thorough with water.
Ingestion: Give plenty to drink.
Eyes: Flush copiously with fresh water.Seek medical advice if irritation or discomfort persists.
10 First Aid / Emergency Procedures
Storage at Pallets should be stored on flat site/warehouse: surface in a dry, covered and well
ventilated area, protected against dust and rain.
During transport: Should be covered with tarpaulin.
11 Storage Precautions
Handling: Use sufficient natural or mechanical ventilation to reduce dust level below the Threshold Limit Value (TLV).
Goggles: Use safety glasses whenever machining the product(drilling, sawing, sanding, etc.)
Clothing: Use working clothes and gloves to protect against mechanical injury.
Respirator: Approved respiratory protective equipment should be made available while working in concentrations above or around TLV.
Overalls: Normal protective working overallsare adequate.
12 Precautions for Safe Handling & Use
Spilled materials: Collect dust with vacuum cleaner during fabrication. If sweeping is necessary, use a dust suppressoror wet-sweep work areas.
Waste disposal: Dispose as a building product waste, according to the local regulations.The collected dust is to bind with cement before disposing in a landfill.
The health and safety information contained herein is believed tobe accurate and correct based on our current knowledge at thedate of issue and no liability can be accepted for any loss, injuryor damage resulting from its use. It is intended as a guide for thesafe handling, storage and use under normal conditions, but doesnot necessarily refer to the particular requirements of a customerwhen further advice should be obtained.
This data sheet and information it contains is not intended tosupercede any terms or conditions of sale and does not constitutea specification. Nothing contained herein is to be construed as arecommendation for use in violation of any patent or applicablelaws or regulations.
13 Spill or Leak Procedure
Eternit, Etex Group.
2 Manufacturer
Off white/grey with smooth surface.
3 Product Appearance
Natural organic fibre cement, calcium silicates hydrates, selectedquartz.
4 Product Composition
General building material for external and internal applications.
5 Product Approved Uses
Nominal Density: 980kg/m3
Nominal specific gravity (H2O = 1): 0.98
pH (10% solution): 11
Odour: Nil
Solubility in water: Nil
6 Physical Data
Non-combustible in accordance with BS 476: Part 4, ISO 1182-90.
7 Fire & Explosion Data
Occupational 10mg/m3
exposure limits: (total inhalable dust)0.1mg/m3
(respirable quartz particles)
Primary route(s) of entry: Inhalation of dust.
Medical conditions(which may be aggravated): Respiratory conditions.
Target organ(s): Lungs.
8 Health Hazards
Inhalation: Acute over exposure to dust may cause irritation of the respiratory tract.
Skin contact: Prolonged contact could lead to irritation for sensitive persons.
Ingestion: Mild discomfort.
Eyes: Mild transient irritation or inflammation.
9 Health Effects
89
EMD/
LD01
-12/
2003
Your local supplier
A Division of Promat International (Asia Pacific) Ltd.Asia Pacific Regional Headquarters 7E Jalan 1/57D, Off Jalan Segambut, 51200 Kuala Lumpur, Malaysia Tel: +60 (3) 6250 2880 Fax: +60 (3) 6250 1159
Email: [email protected] Website: www.eternit-ap.com
Eternit is the world s largest
manufacturer of fibre cement products.
The company is part of the Etex Group,
one of the largest manufacturers of
construction materials in the world.
The Group operates all over the world,
has turnover of approximately 1.5 billion
Euros and 13,000 employees. The
company pays enormous attention to
environmentally-sound manufacturing
(ISO 14001) and the development of
environment-friendly products. Total
Environmental Protection and Quality
Assurance System have already been or
are being introduced in all the
production companies. Eternit s quality
control system for the production and
finishing of fibre cement materials have
been awarded ISO 9000: 2000 certification.